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SAOTP1
p.1
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Achievement of Small Beam Size in Final Focus Test at ATF

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¡ûKiyoshi Kubo, Toshiyuki Okugi (KEK)
 
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SAOTP2
p.5
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Commissioning and present status of accelerators of Aichi Synchrotron Radiation Center

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SAOTP3
p.9
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Beam Test of SAGA-HIMAT

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SAOTP4
p.14
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Development of New Control Framework MADOCA II at SPring-8

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15:10 - 15:30 
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p.18
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Linac upgrade for SuperKEKB

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¡ûTakuya Natsui (KEK)
 
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15:30 - 15:50 
SAOT02
p.23
ÅìËÌÂç³ØÅŻҥ֡¼¥¹¥¿¡¼¥·¥ó¥¯¥í¥È¥í¥óÆþ¼ÍÍÑ90MeV¥ê¥Ê¥Ã¥¯¤Î³«È¯¾õ¶·
Status of a new 90MeV injector linac for the electron booster synchrotron at Tohoku University

¡ûÇðÌÚ ÌС¤Æü½Ð ÉÙ»Îͺ¡¤ÆîÉô ·ò°ì¡¤¼Æºê µÁ¿®¡¤ÉðÆ£ ½ÓºÈ¡¤Ä¹ß· °éϺ¡¤¹â¶¶ ·ò¡¤ÉÍ ¹­¹¬¡ÊÅìËÌÂç³ØÅŻҸ÷Íý³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûShigeru Kashiwagi, Fujio Hinode, Kenichi Nanbu, Yoshinobu Shibazaki, Toshiya Muto, Ikuro Nagasawa, Ken Takahashi, Hiroyuki Hama (Electron Light Science Centre, Tohoku University)
 
ÅìËÌÂç³ØÅŻҸ÷Íý³Ø¸¦µæ¥»¥ó¥¿¡¼¤ÎÅŻҲî´ï¤ÏÅìÆüËÜÂç¿ÌºÒ¤Ë¤è¤ê¿ÓÂç¤ÊÈï³²¤ò¼õ¤±¤¿¡£ÆäË300MeVÅŻҥê¥Ê¥Ã¥¯¤Î¹â¥¨¥Í¥ë¥®¡¼Éôʬ¤ÏÈï³²¤¬Â礭¤¯½¤Éü¤¬º¤Æñ¤Ç¤¢¤Ã¤¿¤¿¤á¡¢1.2GeVÅŻҥ·¥ó¥¯¥í¥È¥í¥ó¤ÎÆþ¼Í´ï¤È¤·¤Æ¿·¤¿¤Ë90MeV¥ê¥Ê¥Ã¥¯¤ò·úÀߤ·¤¿¡£90MeVÅŻҥê¥Ê¥Ã¥¯¤Ï¡¢Ç®±¢¶ËRFÅŻҽƤÈ2ËܤÎ3mĹS¥Ð¥ó¥É²Ã®´É¡¢¥Ó¡¼¥àÍ¢Á÷·Ï¤Ç¹½À®¤µ¤ì¤Æ¤¤¤ë¡£²æ¡¹¤¬¤³¤ì¤Þ¤Ç³«È¯¤ò¹Ô¤Ã¤Æ¤­¤¿ÆÈΩ2¶õƶ·¿¤ÎRFÅŻҽƤòÅŻҸ»¤È¤·¤Æ¤ª¤ê¡¢Ä㥨¥ß¥Ã¥¿¥ó¥¹¤Îû¥Ñ¥ë¥¹ÅŻҥӡ¼¥à¤òÀ¸À®¤¹¤ë¤³¤È¤¬²Äǽ¤Ç¤¢¤ë¡£2012ǯ10·îËö¤«¤é2013ǯ1·î¤ÎÌó3¥«·î´Ö¤Ç²Ã®´ï¤ÎÀßÃÖ¤ÈRF¥¨¡¼¥¸¥ó¥°¤ò´°Î»¤·¡¢2013ǯ1·î29Æü¤Ë¥¨¥Í¥ë¥®¡¼90MeV¤Þ¤Ç¤Î¥Ó¡¼¥à²Ã®¤ËÀ®¸ù¤·¤¿¡£¤½¤Î¸å¡¢Æþ¼ÍÍÑ¥ê¥Ê¥Ã¥¯¤Î¥³¥ß¥Ã¥·¥ç¥Ë¥ó¥°¤Ï²Ã®´ï·ú²°Æâ¤Î¾¤ÎÉüµì¹©»ö¤Î¤¿¤á¤ËÃdzŪ¤Ë¹Ô¤ï¤ì¡¢2013ǯ5·î¤è¤êÅŻҥ·¥ó¥¯¥í¥È¥í¥ó¤Ø¤ÎËܳÊŪ¤Ê¥Ó¡¼¥àÆþ¼Í»î¸³¤ò³«»Ï¤·¤¿¡£ËÜȯɽ¤Ç¤Ï¡¢¥ê¥Ê¥Ã¥¯¤«¤éÅŻҥ·¥ó¥¯¥í¥È¥í¥ó¤Ø¤Î¥Ó¡¼¥àÍ¢Á÷¥é¥¤¥ó¤Ç¹Ô¤Ã¤¿¥Ó¡¼¥àÆÃÀ­·×¬¤Î·ë²Ì¤äÆþ¼Í¤Î¤¿¤á¤Î¥ª¥×¥Æ¥£¥¯¥¹¥Þ¥Ã¥Á¥ó¥°¤Ê¤É¤Î³«È¯¾õ¶·¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£
 
15:50 - 16:10 
SAOT03
p.27
SACLAÀþ·Á²Ã®´ï¤Ë¤ª¤±¤ë¿Ê¹ÔÇȲî´É¤Î¥Ó¡¼¥àÍ¢Á÷ÌÏ·¿¤Î½¤Àµ
Modification of the beam transfer model of travelling wave accelerator structures at SACLA

¡ûÅÄ¿¬ ÂÙÇ·¡Ê¥¹¥×¥ê¥ó¥°¥¨¥¤¥È¥µ¡¼¥Ó¥¹(³ô)¡Ë¡¤ÅÏÀî Ϲ¸¡¤¸¶ Å°¡¤Á°ºä ÈæϤÏ¡ÊÍý¸¦ Êü¼Í¸÷²Ê³ØÁí¹ç¸¦µæ¥»¥ó¥¿¡¼¡Ë¡¤Ä¹Ã«Àî ÂÀ°ì¡Ê¥¹¥×¥ê¥ó¥°¥¨¥¤¥È¥µ¡¼¥Ó¥¹(³ô)¡Ë¡¤ÅÄÃæ ¶Ñ¡ÊÍý¸¦ Êü¼Í¸÷²Ê³ØÁí¹ç¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûYasuyuki Tajiri (SPring-8 Service Co., Ltd.), Kazuaki Togawa, Toru Hara, Hirokazu Maesaka (RIKEN SPring-8 Center), Taichi Hasegawa (SPring-8 Service Co., Ltd.), Hitoshi Tanaka (RIKEN SPring-8 Center)
 
XÀþ¼«Í³ÅŻҥ졼¥¶¡¼»ÜÀßSACLA¤Ç¤Ï¡¢XÀþ¥ì¡¼¥¶¡¼½ÐÎϺÇŬ²½¤Î¤¿¤á¤Î¥Ó¡¼¥àÄ´À°¤ò¸úΨ¤è¤¯¹Ô¤¦¤¿¤á¡¢ÅŻҥӡ¼¥à¤Îµ°Æ»¤ä¥¨¥ó¥Ù¥í¡¼¥×Åù¤ò¡¢ÅŻҽƤ«¤é¥¢¥ó¥¸¥å¥ì¡¼¥¿½Ð¸ý¤Þ¤Ç·×»»¤·Í½Â¬¤¹¤ëÀþ·Á²Ã®´ïÌÏ·¿¤Î³«È¯¤ò¹Ô¤Ã¤Æ¤­¤¿¡£ Àþ·Á²Ã®´ïÌÏ·¿¤Ï¡¢ÃßÀÑ¥ê¥ó¥°¤Ç³ÎΩ¤µ¤ì¤¿Àþ·ÁžÁ÷¹ÔÎó¤ò¥Ù¡¼¥¹¤Ë¹½ÃÛ¤·¤Æ¤¤¤ë¡£¿Ê¹ÔÇȲî´É¤ÏÃßÀÑ¥ê¥ó¥°¤Ç¤Ï¸ºß¤·¤Ê¤¤¤¿¤á¡¢¥¨¥Í¥ë¥®¡¼ÊѲ½¤ò´Þ¤àsymplecticžÁ÷¹ÔÎó¤òÊÑ¿ôÊÑ´¹¤òÍѤ¤¤ÆÄêµÁ¤·¡¢²Ã®´ïüÉô¤Î¼ý«¸ú²Ì¤òÇöÆù¶á»÷¤·¤Æ¼è¤êÆþ¤ì¤ë¤³¤È¤Ç²Ã®´É¤ò¥â¥Ç¥ë²½¤·¡¢·×»»¤Ë»ÈÍѤ·¤Æ¤¤¤ë¡£²Ã®´ïÌÏ·¿¤Ï¡¢´û¸¤Î¥³¡¼¥É¤ÈÈæ³Ó¤·¡¢Îɤ¤°ìÃפ¬ÆÀ¤é¤ì¤Æ¤¤¤ë¤¬¡¢SACLA¤Ë¤ª¤±¤ë¼ÂºÝ¤Î¥Ó¡¼¥à¤Î±þÅú¤È¤Ï°ìÃפ·¤Æ¤ª¤é¤º¡¢¿Ê¹ÔÇȴɤˤª¤±¤ë¥º¥ì¤¬Â礭¤¤¡£¤½¤³¤Çº£²ó¡¢±þÅú´Ø¿ô¤Î¬Äê·ë²Ì¤òÍѤ¤¤¿¿Ê¹ÔÇȴɤΞÁ÷¹ÔÎó¤Î¹»Àµ¤ò»î¤ß¤¿¡£²Ã®´É¤ÎüÉô¤Î¼ý«ÎϤ˷¸¿ô¤ò¾è¤¸¡¢·¸¿ô¤òÄ´À°¤¹¤ë¤³¤È¤Ç¡¢¥Ó¡¼¥à±þÅú¤Î¬Äê·ë²Ì¤ÈÀþ·ÁÌÏ·¿¤Î·×»»·ë²Ì¤ò¤è¤¯°ìÃפµ¤»¤ë¤³¤È¤¬¤Ç¤­¤¿¡£ÊäÀµ·¸¿ô¤Ï¿åÊ¿Êý¸þ¤È¿âľÊý¸þ¤Ç°Û¤Ê¤ê¡¢RF°ÌÁê¤Ë°Í¸¤¹¤ë¡£¤Þ¤¿¡¢¿åÊ¿Êý¸þ¤Î·¸¿ô¤È¿âľÊý¸þ¤Î·¸¿ô¤ÎϤϰìÄê¤Ç¤¢¤ë¤³¤È¤«¤é¡¢²Ã®´ÉüÉô¤Î¥«¥×¥é¡¼¥»¥ë¤Ë4¶Ë¼ý«À®Ê¬¤¬¤¢¤ë¤³¤È¤¬¤ï¤«¤Ã¤¿¡£¸½ºßSACLA¤Ç¤Ï¤³¤Î½¤Àµ¤·¤¿ÌÏ·¿¤òÍѤ¤¤Æ¥¨¥ó¥Ù¥í¡¼¥×¤ÎÀ©¸æ¤È²Ã®´ïÁ´ÂΤΥӡ¼¥àµ°Æ»ÊäÀµ¤ò¹Ô¤Ã¤Æ¤¤¤ë¡£Ëܳزñ¤Ç¤Ï¡¢²Ã®´ïÌÏ·¿¤Î¹»ÀµÊýË¡¤È¤½¤Î·ë²Ì¤Î¾ÜºÙ¤Ë¤Ä¤¤¤ÆÊó¹ð¤ò¹Ô¤¦¡£
 
16:10 - 16:30 
SAOT04

KEK¤Ë¤ª¤±¤ëILC¤Î¤¿¤á¤ÎĶÅÁƳ£¹¥»¥ë¶õƶÀ½Â¤¤Î¸¦µæ
STUDY ON FABRICATION OF SUPERCONDUCTING RF 9-CELL CAVITY FOR ILC AT KEK
¡ûº´Çì ³Ø¹Ô¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë
¡ûTakayuki Saeki (KEK)
 
We constructed a new facility for the fabrication of superconducting RF cavity at KEK from 2009 to 2011. In the facility, we have installed a deep-drawing machine, a half-cell trimming machine, an Electron-Beam Welding (EBW) machine, and a chemical etching room in one place. We started the study on the fabrication of 9-cell cavity for International Linear Collier (ILC) from 2009 using this facility. The study is focusing on the cost reduction with keeping high performance of cavity, and the goal is the establishment of mass-production procedure for ILC. This article reports the current status of the studies in this facility.
 
16:30 - 16:50 
SAOT05
p.31
[Slides]
Ķû¥Ñ¥ë¥¹ÅŻҥӡ¼¥à¤ÎȯÀ¸¡¦·×¬¤ª¤è¤Ó¤½¤ÎÍøÍÑ
Generation and measurement of ultrashort electron beam for applications

¡û¿û ¹¸°ì¡¤ÍÌ ¶âÊö¡¤¾®Êý ¸ü¡¤¶áÆ£ ¹§Ê¸¡¤¿À¸Í ÀµÍº¡¤Ìîß· °ìÂÀ¡¤ÈõÀî ÃÒÍΡ¤Ë¡ß· ¸ø´²¡¤¾®ÎÓ ¿Î¡¤µÈÅÄ ÍÛ°ì¡ÊºåÂ绺¸¦¡Ë
¡ûKoichi Kan, Jinfeng Yang, Atsushi Ogata, Takafumi Kondoh, Masao Gohdo, Itta Nozawa, Tomohiro Toigawa, Kimihiro Norizawa, Hitoshi Kobayashi, Yoichi Yoshida (ISIR, Osaka Univ.)
 
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16:50 - 17:10 
SAOT06
p.34
¾®·¿ÅÅ»ÒÀþ·Á²Ã®´ï¤òÍѤ¤¤¿Ä¶¹â¥¨¥Í¥ë¥®¡¼±§ÃèÀþ˾±ó¶À¤ÎÀäÂÐ¥¨¥Í¥ë¥®¡¼³ÓÀµ
Absolute energy calibration of Ultra-high energy cosmic Fluorescence Telescope with an small electron linear accelerator

¡û¼ÇÅÄ Ã£¿­¡¤Ê¡Åç Àµ¸Ê¡¤º´Àî ¹¨¹Ô¡ÊÅìÂ籧ÃèÀþ¸¦¡Ë¡¤Cheon Byung¡¤Shin Bokkyun¡ÊHanyang University¡Ë¡¤Matthews John¡¤Thomson Gordon¡¤Karen Langely¡¤Beitollahi Masoud¡ÊUniversity of Utah¡Ë
¡ûTatsunobu Shibata, Masaki Fukushima, Hiroyuki Sagawa (ICRR), Byung Cheon, Bokkyun Shin (Hanyang University), John Matthews, Gordon Thomson, Langely Karen, Masoud Beitollahi (University of Utah)
 
±§Ã褫¤éÃϵå¤Ë¹ß¤êÃí¤°Î³»ÒÀþ¤äÅż§ÇȤÎÁí¾Î¤ò±§ÃèÀþ¤È¸Æ¤Ö¡£¸½ºß´Ñ¬¤µ¤ì¤Æ¤¤¤ëºÇ¤â¹â¤¤Î³»ÒÀþ¤Î¥¨¥Í¥ë¥®¡¼¤Ï10¤Î20¾è¤òĶ¤¨¡¢ÆäËĶ¹â¥¨¥Í¥ë¥®¡¼±§ÃèÀþ(Ultra-high Energy Cosmic Rays;UHECR)¤È¸Æ¤Ö¡£UHECRs¤Î½ÅÍפʴѬÎ̤ϥ¨¥Í¥ë¥®¡¼¤ÎÀºÌ©Â¬Äê¤Ç¤¢¤ë¤¬Â¬ÄêÀºÅÙ¤ÏÌó20%¤ÈÂ礭¤¤¤¿¤á¼Â¸³¤Ë¤è¤Ã¤Æ¥¨¥Í¥ë¥®¡¼¥¹¥±¡¼¥ë¤ËÂ礭¤Êº¹¤¬À¸¤¸¤Æ¤¤¤ë¡£¥Æ¥ì¥¹¥³¡¼¥×¥¢¥ì¥¤(TA)¤ÏÂ絤·Ö¸÷˾±ó¶À(Fluorescence Detector;FD)¤È¥×¥é¥¹¥Á¥Ã¥¯¥·¥ó¥Á¥ì¡¼¥·¥ç¥ó¥«¥¦¥ó¥¿¡¼¤Î2¼ï¤Î¸¡½Ð´ï¤òÍѤ¤¤¿ËÌȾµå¤ÇºÇÂç¤ÎUHECRs´Ñ¬¼Â¸³¤Ç¤¢¤ë¡£TA¼Â¸³¤Ç¤Ï¥¨¥Í¥ë¥®¡¼·èÄêÀºÅ٤θþ¾å¤òÌÜŪ¤ËÆȼ«¤Ë³«È¯¤·¤¿¾®·¿ÅÅ»ÒÀþ·Á²Ã®´ï(Ä̾ÎElectron Light Source;ELS)¤òÍѤ¤¤ÆÀäÂÐ¥¨¥Í¥ë¥®¡¼¤Î³ÓÀµ¤ò¹Ô¤Ã¤Æ¤¤¤ë¡£Â¨¤ÁFD¤«¤é»ëÌîÊý¸þ¤Ë100m¤Îµ÷Î¥¤ËÀßÃÖ¤µ¤ì¤¿ELS¤«¤é¶õÃæ¤Ë40MeVÅŻҥӡ¼¥à(1¥Ñ¥ë¥¹Åö¤¿¤ê¤ÎÅŻҿô¤Ï10¤Î9¾è¸Ä)¤ò¼Í½Ð¤·¡¢ÅŻҤˤè¤Ã¤Æ¶õµ¤Ãæ¤ÇȯÀ¸¤¹¤ëÂ絤¥·¥ó¥Á¥ì¡¼¥·¥ç¥ó¸÷¤òľÀÜFD¤Ç´Ñ¬¤¹¤ë¡£¤½¤·¤ÆFD¤¬UHECRs¤ò´Ñ¬¤¹¤ë»þ¤ËɬÍפʥѥé¥á¡¼¥¿¤ÎÆâÂ絤Ãæ¤Ç¤Î¸º¿ê·¸¿ô°Ê³°¤ò°ì³ç¤·¤Æ³ÓÀµ¤¹¤ë¡£ELS¤Ï2011ǯ11·î°Ê¹ß¤ÏÄê´üŪ¤Ë³ÓÀµÍѤμͽФò¹Ô¤¤¥Ç¡¼¥¿¤òÃßÀѤ·¤¿¡£¤Þ¤¿ºÇ½ÅÍײÝÂê¤È¤·¤Æ1¥Ñ¥ë¥¹Åö¤¿¤ê¤ÎÅŻҿô¤Î¬Äê¤Ç¤¢¤ê¡¢ÅŻҿô¬ÄêÀºÅ٤θþ¾å¤ò¾ï¤Ëµá¤á¤Æ¤­¤¿¡£º£²ó¤Îȯɽ¤Ç¤ÏºÇ½ªÈÇFC¤Ë¤è¤ëÅŲÙÎ̬ÄêÀºÅ٤θþ¾å¤È¡¢¥¨¥Í¥ë¥®¡¼³ÓÀµ¤Î·ë²Ì¤Ë¤Ä¤¤¤Æ½é¤á¤ÆÊó¹ð¤¹¤ë¡£
 
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15:10 - 15:30 
SAOS01
p.39
[Slides]
J-PARC 3-50BT¥é¥¤¥ó¤Ë¤ª¤±¤ë¸÷³Ø·Ï¤ÎÄ´À°
Optics tuning at the J-PARC 3-50BT line

¡û¸¶ÅÄ ´²Ç·¡¤ÌÀ¸á ¿­°ìϺ¡¤Åļ ʸɧ¡Ê¸¶»ÒÎϵ¡¹½/J-PARC¥»¥ó¥¿¡¼¡Ë¡¤Çò·Á À¯»Ê¡¤º´Æ£ Íΰ졤¼êÅç ¾»¸Ê¡¤¶¶ËÜ µÁÆÁ¡¤¸Þ½½Íò ¿Ê¡¤¾®´Ø Ãé¡Ê¹â¥¨¥Í¸¦/J-PARC¡Ë
¡ûHiroyuki Harada, Shin-ichirou Meigo, Fumihiko Tamura (JAEA/J-PARC), Masashi Shirakata, Yoichi Sato, Masaki Tejima, Yoshinori Hashimoto, Susumu Igarashi, Tadashi Koseki (KEK/J-PARC)
 
J-PARC 3-50BT¤Ï¡¢Â®¤¤·«¤êÊÖ¤·¤Î¥·¥ó¥¯¥í¥È¥í¥ó(3GeV RCS)¤«¤é½Ð¼Í¤µ¤ì¤¿¥Ó¡¼¥à¤òÃÙ¤¤·«¤êÊÖ¤·¤Î¥·¥ó¥¯¥í¥È¥í¥ó¡ÊMR¡Ë¤ËÍ¢Á÷¤¹¤ë¥Ó¡¼¥à¥é¥¤¥ó¤Ç¤¢¤ë¡£¶õ´ÖÅŲٸú²Ì¤Ê¤É¥Ó¡¼¥à¤Î¥¨¥ß¥Ã¥¿¥ó¥¹¤ä¥Ï¥í¡¼¤òÁý²Ã¤µ¤»¤ëÊ£¹çŪ¤ÊÍ×°ø¤Ï¡¢Â綯ÅÙ¤ÎÍÛ»Ò¥Ó¡¼¥à¤Ç¤Ï¶¯ÅÙ¤¬Áý²Ã¤¹¤ë¤Ë¤Ä¤ì¤Æ¡¢ÈóÀþ·Á¤ËÁý²Ã¤¹¤ë¡£²Ã¤¨¤Æ¡¢MR¤ÎʪÍý¥¢¥Ñ¡¼¥Á¥ã¤Ï81¦Ðmmmrad¤Ç¤¢¤ê¡¢RCS¤Î486¦Ðmmmrad¤ÈÈæ³Ó¤·¤Æ¾®¤µ¤¤¡£¤½¤Î¤¿¤á¡¢°ìÈÌŪ¤Ê¥Ó¡¼¥àÍ¢Á÷¥é¥¤¥ó¤ÎÌò³ä¤È¤Ï°Û¤Ê¤ê¡¢3-50BT¤Ç¤Ï¥³¥ê¥á¡¼¥¿¥¨¥ê¥¢¤òÍפ·¡¢¥Ó¡¼¥à¤ò½êÄê¤Î¥¨¥ß¥Ã¥¿¥ó¥¹¤Þ¤Çºï¤ëµ¡Ç½¤òÍ­¤¹¤ë¡£¤³¤ÎÀ­Ç½¤ò½½Ê¬¤Ëȯ´ø¤¹¤ë¤¿¤á¤Ë¤Ï¡¢3-50BT¤Ç¤Î¸÷³Ø·Ï¤òÇÄ°®¤Ê¤é¤Ó¤ËÄ´À°¤¹¤ëɬÍפ¬¤¢¤ë¡£Ëֱܹé¤Ç¤Ï¡¢3-50BT¤Ë¤ª¤±¤ë¸÷³Ø·Ï¤Î¬Äê¼êË¡¤ò¾Ò²ð¤·¡¢Â¬Äê·ë²Ì¤È·×»»¥â¥Ç¥ë¤Ë´ð¤Å¤¤¤¿Ä´À°·ë²Ì¤òÊó¹ð¤¹¤ë¡£
 
15:30 - 15:50 
SAOS02
p.44
[Slides]
J-PARC¥á¥¤¥ó¥ê¥ó¥°¤Ë¤ª¤±¤ë¥Ð¥ó¥ÁĹÀ©¸Â²¼¤Ç¤Î¥Ó¡¼¥à¥À¥¤¥Ê¥ß¥Ã¥¯¥¹¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¡§6ÇܹâÄ´ÇÈRFÁý¶¯¤Ë¤è¤ë¶õ´ÖÅŲٸú²Ì´ËϤȥӡ¼¥àÂ綯ÅÙ²½¤Ø¤Î´óÍ¿
Beam dynamics simulations for the limited bunch length of a beam in the J-PARC main ring: space charge compensation effect of adding sixth harmonic RFs, and possible contributions to increase the beam power.

¡ûº´Æ£ Íΰ졤¸¶ ·½¸ã¡¤Â翹 Àé¹­¡¤¸Þ½½Íò ¿Ê¡¤¾®´Ø Ãé¡Ê¹â¥¨¥Í¸¦/J-PARC¡Ë
¡ûYoichi Sato, Keigo Hara, Chihiro Omori, Susumu Igarashi, Tadashi Koseki (KEK/J-PARC)
 
J-PARC¥á¥¤¥ó¥ê¥ó¥°¡ÊMR¡Ë¤Ë¤ª¤±¤ë¥Ó¡¼¥àÁý¶¯·×²è¤ÎÃì¤È¤Ê¤ë¶õ´ÖÅŲٸú²ÌÂкö¤ò¸¡Æ¤¤¹¤ë¤¿¤á¡¢RF¹âÄ´ÇÈŬÍѤˤè¤ë¥¨¥ß¥Ã¥¿¥ó¥¹Áý²ÃÍÞÀ©¤È¥Ó¡¼¥à¥í¥¹·Ú¸ºÍ½Â¬¤ò2.5D¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¤òÄ̤·¤Æ¹Ô¤Ã¤¿¡£¤½¤ÎºÝ¡¢¥Ï¡¼¥É¥¦¥¨¥¢¤«¤é¤ÎÀ©¸Â¤È¤·¤Æ¡¢¾åή¥ê¥ó¥°¡ÊRCS¡Ë¤Î¼è½Ð¤·¥­¥Ã¥«¡¼¤È¥á¥¤¥ó¥ê¥ó¥°¤ÎÆþ¼Í¥­¥Ã¥«¡¼¤Î¤½¤ì¤¾¤ì¤ÎΩ¤Á¾å¤¬¤ê»þ´Ö¤ò¹Íθ¤·¡¢¥Ó¡¼¥àÁý¶¯·×²èÁ´ÂΤȤÎÀ°¹çÀ­¤ò¿Þ¤Ã¤¿¡£Î¾¥­¥Ã¥«¡¼¤ÎΩ¤Á¾å¤¬¤ê»þ´Ö¤ÏMR ¥Ð¥ó¥ÁŤòÀ©¸Â¤·¡¢¥Ð¥ó¥ÁŤò¿­¤Ð¤¹¤³¤È¤Ç¥Ð¥ó¥ÁÆâ¥Ô¡¼¥¯¥«¥ì¥ó¥È¤ò²¼¤²¤Æ¶õ´ÖÅŲٸú²Ì¤ò´ËϤò¿Þ¤ë»î¤ß¤ËÀ©Ìó¤òÍ¿¤¨¤ë¡£ËÜȯɽ¤Ç¤Ï¡¢MR¤Ç´û¤Ë½àÈ÷¤µ¤ì¤Æ¤¤¤ëRF2ÇܹâÄ´ÇȤ˲䨡¢RF6ÇܹâÄ´ÇȤòÁý¶¯¤¹¤ë¤³¤È¤Ç¡¢¥Ð¥ó¥ÁŤò¥­¥Ã¥«¡¼¤Ë¤è¤ëÀ©Ìó¤ÎÈϰϤËÍÞ¤¨¤¿¾å¤Ç¶õ´ÖÅŲٸú²Ì¤ò´ËϤ·¡¢¥Ó¡¼¥à¥í¥¹¤òRCS-MR´ÖÍ¢Á÷·Ï¡Ê3-50BT¡Ë¤ÈMR¤Î¤½¤ì¤¾¤ì¤Î¥³¥ê¥á¡¼¥¿ÍÆÎÌÆâ¤Ëα¤á¤¿¥Ó¡¼¥àÁý¶¯¾ò·ï¤ò¸¡Æ¤¤¹¤ë¡£
 
15:50 - 16:10 
SAOS03
p.49
[Slides]
J-PARC 3-50BT Áý¶¯·×²è
J-PARC 3-50BT Upgrade Plan

¡ûÇò·Á À¯»Ê¡¤µûÅÄ ²íɧ¡¤Âç±Û δÉס¤µ×ÊÝÅÄ ¿Æ¡¤º´Æ£ ·ò°ìϺ¡¤º´Æ£ Íΰ졤¹âÌî ½ßÊ¿¡¤³°»³ µ£¡¤¶¶ËÜ µÁÆÁ¡¤ËÙ ÍΰìϺ¡Ê¹â¥¨¸¦¡Ë¡¤¸¶ÅÄ ´²Ç·¡Ê¸¶²Ê¸¦¡Ë
¡ûMasashi Shirakata, Masahiko Uota, Takao Oogoe, Chikashi Kubota, Kenichiro Sato, Yoichi Sato, Junpei Takano, Takeshi Toyama, Yoshinori Hashimoto, Yoichiro Hori (KEK), Hiroyuki Harada (JAEA)
 
J-PARC 3-50BT¤Ï¡¢Â®¤¤·«¤êÊÖ¤·¤Î¥·¥ó¥¯¥í¥È¥í¥ó¤«¤é¼Í½Ð¤µ¤ì¤ë¥Ó¡¼¥à¥Ð¥ó¥Á¤òÃÙ¤¤·«¤êÊÖ¤·¤Î¥·¥ó¥¯¥í¥È¥í¥ó¡Ê°Ê²¼¡¢MR¤È¾Î¤¹¤ë¡Ë¤ËÍ¢Á÷¤¹¤ë¥Ó¡¼¥à¥é¥¤¥ó¤Ç¤¢¤ë¡£°ìÈÌŪ¤Ë¥Ó¡¼¥à¥é¥¤¥ó¤ÎÌò³ä¤Ï¡¢ÅÓÃæ¥í¥¹¤¹¤ë¤³¤È¤Ê¤¯¥Ó¡¼¥à¤òÌÜŪÃϤޤǰÜÁ÷¤·¡¢¼õÅÏÀèÁõÃ֤θ÷³Ø·Ï¤Ë¹ç¤ï¤»¤Æ°ú¤­ÅϤ¹¤³¤È¤Ç¤¢¤ë¤¬¡¢J-PARC 3-50BT¤Ç¤ÏÆâÉô¤Ë¥³¥ê¥á¡¼¥¿¥¨¥ê¥¢¤òÍ­¤·¡¢¥Ó¡¼¥à¥Ï¥í¡¼¤ò½êÄê¤Î¥¨¥ß¥Ã¥¿¥ó¥¹¤Þ¤Ç¥«¥Ã¥È¤¹¤ëµ¡Ç½¤ò»ý¤Ã¤Æ¤¤¤ë¡£J-PARC MR¤Î¥Ó¡¼¥à¥Ñ¥ï¡¼¤Ï¸½ºß240kW¤òãÀ®¤·¤Æ¤¤¤ë¤¬¡¢2014ǯ°Ê¹ß750kW¤òÌܻؤ·¤Æ¤ª¤ê¡¢¤½¤ÎÍͤʥϥ¤¥Ñ¥ï¡¼±¿Å¾¤Ç¤Ï3-50BT¤Ë±÷¤±¤ë¥Ó¡¼¥à¥Ï¥í¡¼¤Î½üµî¤¬¶Ë¤á¤Æ½ÅÍפˤʤäƤ¯¤ë¡£¤½¤Î¤¿¤á¡¢¥³¥ê¥á¡¼¥¿¥¨¥ê¥¢¤Ç¤Î¥Ó¡¼¥à¥Ï¥ó¥É¥ê¥ó¥°¤Î¹âÅÙ²½¤òÌÜŪ¤È¤·¤Æ¡¢¥Ó¡¼¥à¥â¥Ë¥¿¡¼¤ª¤è¤Óµ°Æ»ÊäÀµÅż§ÀÐÅù¤ÎÄɲäòΩ°Æ¤·¤¿¡£ ËܹƤǤϡ¢2013ǯ¸åȾ¤ÎĹ´üÊݼé´ü´ÖÃæ¤Ë·×²è¤µ¤ì¤Æ¤¤¤ë3-50BT¾åήÉô¤ÎÁý¶¯·×²è¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£
 
16:10 - 16:30 
SAOS04
p.54
J-PARC MR Æþ¼Í¥·¥¹¥Æ¥à¤Î¥¢¥Ã¥×¥°¥ì¡¼¥É¸¦µæ
Upgrade study of J-PRAC main ring injection system

¡ûÜè ùî·³¡¤ÀÐ°æ ¹±¼¡¡¤¿ùËÜ ÂóÌé¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë¡¤Ê¡²¬ æÆÂÀ¡ÊÃÞÇÈÂç³Ø¡Ë¡¤¾¾ËÜ ¶µÇ·¡¤¾¾ËÜ ¹À¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë
¡ûKuanjun Fan, Koji Ishii, Takuya Sugimoto (High Energy Accelerator Research Organization), Shota Fukuoka (University of tsukuba), Noriyuki Matsumoto, Hiroshi Matsumoto (High Energy Accelerator Research Organization)
 
The J-PARC main ring has the ambitious goal of accelerating proton beam with power of 750 kW. To realize the target, a high performance injection system is crucial. However, several problems due to the imperfect performance of the main elements have been observed in the present injection system, which deteriorate the injection beam orbit and cause beam losses. The problems will become big road blocks to high power operation. Thus, the injection system needs to be upgraded to correct the difficulties. The upgrade includes two new designed septa to reduce the leakage field, an optimized the kicker system to improve the kicker field, and a compensation kicker system to correct the injection errors. Careful 3D electromagnetic field simulations are performed to ensure the accuracy of magnets design. The 3D particle tracks in the entire injection region are studied thoroughly to guarantee the injection beam pass through the injection system without beam loss.
 
16:30 - 16:50 
SAOS05
p.58
[Slides]
KEK¥Ç¥¸¥¿¥ë²Ã®´ï¤Ë¤ª¤±¤ë¥¤¥ª¥ó¸»¤«¤é¤ÎľÀÜÆþ¼Í¥Ó¡¼¥à¤Î²Ã®
Acceleration of directly-injected beam from the ion source to the KEK digital accelerator

¡ûͳ¸µ ¿ò¡ÊÅ칩Âç¡Ë¡¤°ñÅÄ Í¥¼¡¡ÊÅìµþÅÔ»ÔÂç¡Ë¡¤¿·°æ µ±ÉסÊKEK¡Ë¡¤Î­ À±¸÷¡ÊÅ칩Âç¡Ë¡¤Leo Kwee Wah¡¤°Âã Íø°ì¡¤Àîµ×ÊÝ ÃéÄÌ¡¤ÌçÁÒ ±Ñ°ì¡¤²¬Â¼ ¾¡Ì顤¹â»³ ·ò¡ÊKEK¡Ë¡¤²¬ÅÄ ´î¿Î¡¤ÀõÈø ÇîÇ·¡ÊNEC¡Ë
¡ûTakashi Yoshimoto (Tokyo Institute of Technology), Masatsugu Barata (Tokyo City University), Teruo Arai (KEK), Xingguang Liu (Tokyo Institute of Technology), Kwee Wah Leo, Toshikazu Adachi, Tadamichi Kawakubo, Eiichi Kadokura, Katsuya Okamura, Ken Takayama (KEK), Yoshihito Okada, Hiroyuki Asao (NEC Network-Sensor)
 
KEK¥Ç¥¸¥¿¥ë²Ã®´ï¤Ï¡¤´û¸¤Î¹â¼þÇȲî¤È¤Ï°Û¤Ê¤ê¡¤Í¶Æ³²Ã®·¿¤Î¥·¥ó¥¯¥È¥í¥ó¤Ç¤¢¤ë¡¥1ÂÐ1¤Î¥Ñ¥ë¥¹¥È¥é¥ó¥¹¤Ç¤¢¤ëͶƳ²Ã®¥»¥ë¤ËȯÀ¸¤¹¤ë¥Ñ¥ë¥¹ÅÅ°µ¤òÍѤ¤¤Æ²Ã®¤¹¤ë¡¥¤³¤Î¼ï¤Î²Ã®´ï¤ÎÍøÅÀ¤Î°ì¤Ä¤È¤·¤Æ¡¤0~1MHzÄøÅ٤ˤ錄¤ë¹­ÈϤʥӡ¼¥à¼þ²ó¼þÇÈ¿ô¤Ë¤ª¤¤¤Æ¥Ó¡¼¥à²Ã®¤¬²Äǽ¤Ç¤¢¤ë¤³¤È¤¬µó¤²¤é¤ì¤ë¡¥¤³¤Î¤³¤È¤Ï¡¤Á°Ãʲî´ï¤òÍѤ¤¤º¤Ë¥¤¥ª¥ó¸»¤«¤é¥ê¥ó¥°¤ØľÀÜ¥Ó¡¼¥à¤òÆþ¼Í¤·¤Æ¹â¥¨¥Í¥ë¥®¡¼Îΰè¤Ë¤Þ¤Ç²Ã®¤Ç¤­¤ë¤À¤±¤Ç¤Ê¤¯¡¤¿åÁÇ¥¤¥ª¥ó¤«¤é¶â¥¤¥ª¥ó¤Þ¤Ç¤Î¤¢¤é¤æ¤ë¥¤¥ª¥ó¤ò°ìÂæ¤Î¥·¥ó¥¯¥í¥È¥í¥ó¤Ç²Ã®¤Ç¤­¤ë¤³¤È¤â°ÕÌ£¤¹¤ë¡¥¥¹¥¤¥Ã¥Á¥ó¥°ÅŸ»¤Î¥²¡¼¥È²óÏ©¤ÎON/OFF¤Ë¤è¤êͶƳ²Ã®¥»¥ë¤ò¶îÆ°¤¹¤ë¤¬¡¤¥²¡¼¥È¿®¹æ¤Ï¼§¾ì¤Î¥é¥ó¥Ô¥ó¥°¥Ñ¥¿¡¼¥ó¤«¤éµá¤Þ¤ëɬÍפʲîÅÅ°µ¤òÍ¿¤¨¤ë¤è¤¦¤Ëͽ¤á¥×¥é¥°¥é¥à¤µ¤ì¤Æ¤ª¤êFPGA¤«¤é½ÐÎϤµ¤ì¤ë¡¥¤½¤ÎºÝ¡¤¼Â¼§¾ì¤ÈFPGA¤Ë¤è¤ë¥²¡¼¥È¿®¹æ¤È¤ò¥¿¥¤¥ß¥ó¥°¤è¤¯¹ç¤ï¤»¤ë¤³¤È¤¬ÉԲķç¤È¤Ê¤ë¤¬¡¤¥â¥Ë¥¿¡¼¤«¤éÆÀ¤é¤ì¤ë¥Ó¡¼¥à¤ÎµóÆ°¤«¤éľÀܤ½¤Î¥¿¥¤¥ß¥ó¥°¤òÀºÅ٤褯ÃΤë¼êË¡¤ò³«È¯¤·¤¿¡¥¤½¤Î·ë²Ì¡¤²æ¡¹¤Ï½Å¥¤¥ª¥ó(¼ÁÎÌÅŲÙÈæA/Q=4)¤ò¤â¤Á¤¤¤Æ82kHz~1.02MHz¤Þ¤Ç¤Î¹­ÈϤʼþÇÈ¿ôÎΰè¤Ë¤ª¤±¤ë²Ã®¤Ë»î¸³Ãʳ¬¤Ê¤¬¤éÀ®¸ù¤·¤¿¡¥ËÜȯɽ¤Ë¤ª¤¤¤Æ¡¤¤½¤Î·ë²Ì¤ò¾ÜºÙ¤ËÊó¹ð¤¹¤ë¡¥
 
16:50 - 17:10 
SAOS06
p.63
[Slides]
KEK-DA LEBT»Äα¼§¾ì±Æ¶Á¤Ë¤ª¤±¤ë¥¤¥ª¥ó¥Ó¡¼¥à¥ª¥×¥Æ¥£¥Ã¥¯¥¹ºÇŬ²½
Beam Optics Optimization in the KEK Digital Accelerator LEBT Considering the Effect of Remnant Magnetic Fields

¡ûέ À±¸÷¡¤½¡ËÜ ¾°Ìé¡ÊÅ칩Âç¡Ë¡¤¹â»³ ·ò¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë
¡ûXingguang Liu, Naoya Munemoto (Tokyo Institute of Technology), Ken Takayama (KEK)
 
KEK¥Ç¥¸¥¿¥ë²Ã®´ï¥ê¥ó¥°¤Ï¥¤¥ª¥ó¤ÎÆþ¼Í®Å٤˲¼¸Â¤¬¤Ê¤¤¡£½¾¤Ã¤ÆÁ°Ãʲî´ï¤òɬÍפȤ·¤Ê¤¤¡£ECR¥¤¥ª¥ó¸»¤«¤é°ú¤­½Ð¤µ¤ì¤¿¸åA/Q=1,2¤Î´°Á´ÅÅÎ¥¥¤¥ª¥ó¤ÏÄã®ÅÙ(¦Â~10^-2)¤ÇLow Energy Beam Transport¡ÊLEBT¡Ë¤òÄ̲á¸å¥ê¥ó¥°¤ËÆþ¼Í¤µ¤ì¤ë¡£LEBT¤Ï3Âæ¤ÎÊиþ¼§ÀС¢7Âæ¤Î4¶Ë¼§ÀС¢¤½¤ì¤¾¤ì5Âæ¤È4Âæ¤Î¿âľ¡¢¿åÊ¿Êý¸þ¥¹¥Æ¥¢¥ê¥ó¥°Åż§ÀФÈ4Âæ¤Î¥Þ¥ë¥Á¥ï¥¤¥ä¡¼¥â¥Ë¥¿¡¼¤«¤é¹½À®¤µ¤ì¤ë¡£Ä㥨¥Í¥ë¥®¡¼¤Ç¤¢¤ë¤¿¤áÃø¤·¤¯Ä㼧¾ì¤Ç¤Î¥Ó¡¼¥à¥¬¥¤¥É¤Ç¤¢¤ë¡£¤³¤Î¤¿¤á»Äα¼§Â«Ì©Å٤αƶÁ¤¬Â礭¤¤¡£¥ï¥¤¥ä¡¼¥â¥Ë¥¿¡¼¤òÍѤ¤¤Æ¥Ó¡¼¥à½Å¿´¤È¥×¥í¥Õ¥¡¥¤¥ë¤ò´Ñ¬¤·¤¿¡£¥¹¥Æ¥¢¥ê¥ó¥°Åż§ÀФÈ4¶Ë¼§ÀФÎÎ弧ÅÅή¤ò¥Ñ¥é¥á¡¼¥¿¡¼¤È¤·¤ÆÆÀ¤é¤ì¤¿¥Ó¡¼¥à¥×¥í¥Õ¥¡¥¤¥ë¥Ç¡¼¥¿¤«¤é:¡Ê£±¡ËLEBT¤Ø¤ÎÆþ¼Í¥Ó¡¼¥à¥Ñ¥é¥á¡¼¥¿¡¼¤òƱÄꤷ¡¢¡Ê£²¡Ë½Å¿ÄÊäÀµ¤ò¹Ô¤¤¡¢¡Ê£³¡Ë¥ê¥ó¥°Æþ¼Í¤Ø¤ÎºÇŬ¥ª¥×¥Æ¥£¥¯¥¹¾ò·ï¤òÆÀ¤¿¡£È¯É½¤Ç¤Ï»Äα¼§Â«Ì©Å٤αƶÁ¤ò»ý¤Ã¤¿¥Ó¡¼¥à¥¬¥¤¥É¥·¥¹¥Æ¥à¤òÍѤ¤¤¿´°Á´ÅÅÎ¥Äã®ÅÙ¥¤¥ª¥ó¥Ó¡¼¥à¥¬¥¤¥ÉºÇŬ²½¤Î¼êË¡¤ò½Ò¤Ù¼Â¸³·ë²Ì¤Î¾ÜºÙ¤òÊó¹ð¤¹¤ë¡£
 
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17:20 - 17:40 
SAOT07
p.69
[Slides]
SACLA²Ã®´ï¤È¸÷¸»À­Ç½¤Î¹âÅÙ²½¤Ë¸þ¤±¤Æ
Upgraded performance of SACLA accelerator and FEL

¡û¸¶ Å°¡ÊÍý¸¦ SPring-8¥»¥ó¥¿¡¼¡Ë
¡ûToru Hara (RIKEN/SPring-8 Center)
 
2012ǯ3·î¤Î¥æ¡¼¥¶¡¼¶¡Íѳ«»Ï¤è¤êÌó1ǯȾ¡¢SACLA¤ÏÂ礭¤Ê¥È¥é¥Ö¥ë¤Ê¤¯¤Û¤ÜÅö½é·×²è¤É¤ª¤ê²ÔƯ¤·¡¢Ê¿À®24ǯÅÙ¤Ï7016»þ´Ö¤ÎÁí±¿Å¾»þ´Ö¤òãÀ®¤·¤¿¡£SACLA¤Ç¤Ï¥æ¡¼¥¶¡¼±¿Å¾¤È¤È¤â¤Ë¡¢²Ã®´ï¤ä¸÷¸»¤Î°ÂÄê²½¤ª¤è¤Ó¹âÅÙ²½¤Ë¤â·Ñ³¤·¤Æ¼è¤êÁȤó¤Ç¤¤¤ë¡£²Ã®´ï°ÂÄê²½¤Î·ë²Ì¤Ï²Ã®´ïÄ´À°ÀºÅ٤θþ¾å¤Ë¤Ä¤Ê¤¬¤ê¡¢¥ì¡¼¥¶¡¼¥Ñ¥ë¥¹¥¨¥Í¥ë¥®¡¼¤Ïºòǯ¤ËÈæ¤ÙÌó2³äÄøÅÙ¸þ¾å¤·¤Æ¤¤¤ë¡£¥Ñ¥ë¥¹·«¤êÊÖ¤·¤Ë¤Ä¤¤¤Æ¤â¡¢RF¥³¥ó¥Ç¥£¥·¥ç¥Ë¥ó¥°¤¬¿Ê¤ó¤À¤³¤È¤«¤é2013ǯ5·î¤Ë10 Hz¤«¤é20 Hz¤Ë¾å¤²¡¢¹¹¤Ëº£Ç¯ÅÙÃæ¤Ë30 Hz¤Þ¤Ç¾å¤²¤Æ¤¤¤¯Í½Äê¤Ç¤¢¤ë¡£¹âÅÙ²½¤ÎÌ̤Ǥϡ¢2¿§FELȯ¿¶¤ä¥Ó¡¼¥à¥¨¥Í¥ë¥®¡¼¤Î¥Ð¥ó¥ÁËèÀ©¸æÊý¼°¤Î»î¸³¤ò¹Ô¤Ã¤¿¡£¥¢¥ó¥¸¥å¥ì¡¼¥¿Éô¥·¥±¥¤¥ó¤òÍøÍѤ·¤¿2¿§FELȯ¿¶¤Ç¤Ï¡¢19Âæ¤Î¥¢¥ó¥¸¥å¥ì¡¼¥¿¤ò¥·¥±¥¤¥ó¾å²¼Î®¤Ëʬ¤±¡¢³Æ¡¹°ã¤¦KÃͤËÀßÄꤹ¤ë¤³¤È¤Ç¡¢°Û¤Ê¤ëÇÈŤò¤â¤Ä£²¤Ä¤Î¥ì¡¼¥¶¡¼¥Ñ¥ë¥¹¤òÀ¸À®¤¹¤ë¡£¥ì¡¼¥¶¡¼¥Ñ¥ë¥¹´Ö¤Ë»þ´Ö¥¸¥Ã¥¿¡¼¤Ï¤Ê¤¯¡¢ÃÙ±ä¤â¥µ¥Ö¥Õ¥§¥à¥ÈÉäÎÀºÅÙ¤ÇÄ´À°²Äǽ¤Ç¡¢XÀþ¥Ý¥ó¥×XÀþ¥×¥í¡¼¥Ö¼Â¸³¤Ê¤É¤³¤ì¤Þ¤Ç¤Ë¤Ê¤¤¥æ¥Ë¡¼¥¯¤ÊÍøÍѼ¸³¤ä¬Äê¼êË¡¤Î³«Â󤬴üÂԤǤ­¤ë¡£¥Ó¡¼¥à¥¨¥Í¥ë¥®¡¼¤Î¥Ð¥ó¥ÁËèÀ©¸æ¤Ï¡¢Ê£¿ô¤Î¥Ó¡¼¥à¥é¥¤¥ó¤ÈÁȤ߹ç¤ï¤»¤ë¤³¤È¤Ç¡¢XFEL¤ÎÍøÍÑÇÈĹÎΰè¤Î³ÈÂç¤ä¡¢¥æ¡¼¥¶¡¼¥¿¥¤¥à¤Î¸úΨŪ±¿ÍѤˤĤʤ¬¤ë¡£ËÜȯɽ¤Ç¤Ï¡¢¤³¤ì¤éSACLA²Ã®´ï¤ä¸÷¸»À­Ç½¤Î¹âÅÙ²½¤Ë¤Ä¤¤¤Æ¡¢²Ã®´ï±¿Å¾¤Î¸½¾õ¤È¤È¤â¤Ë¾Ò²ð¤¹¤ë¡£
 
17:40 - 18:00 
SAOT08
p.74
¥¢¥ÈÉ䫤ĥƥé¥ï¥Ã¥È¥ì¥Ù¥ë¤ÎXFEL¥Ñ¥ë¥¹¤òÀ¸À®¤¹¤ë¿·¼êË¡¤ÎÄó°Æ
A new scheme to generate a multi-terawatt and attosecond XFEL pulse

¡ûÅÄÃæ 묭¡ÊÍý¸¦Êü¼Í¸÷¥»¥ó¥¿¡¼¡Ë
¡ûTakashi Tanaka (RIKEN SPring-8 Center)
 
¸÷¥Ñ¥ë¥¹°µ½Ì¤Ï¡¢²Ä»ëµÚ¤ÓÀÖ³°¥ì¡¼¥¶¡¼¤Ç¤Ï°ìÈÌŪ¤ËÍѤ¤¤é¤ì¤Æ¤¤¤ë¼êË¡¤Ç¤¢¤Ã¤Æ¡¢¥Ô¡¼¥¯¥Ñ¥ï¡¼¤òÁý¶¯¤¹¤ë¤È¤È¤â¤Ë¡¢¥Ñ¥ë¥¹Ä¹¤òÇÈŤÈƱÅùÄøÅÙ¤Þ¤Çû½Ì¤¹¤ë¤³¤È¤¬²Äǽ¤Ç¤¢¤ë¡£°ìÊýXFEL¤Ç¤ÏÁêÅö¤¹¤ëµ»½Ñ¤¬Â¸ºß¤»¤º¡¢¤³¤Î¤¿¤áÍøÍѲÄǽ¤ÊºÇû¥Ñ¥ë¥¹Ä¹¤Ï¡¢ÇÈŤ¬£´·åÄøÅÙû¤¤¤Î¤Ë¤â¤«¤«¤ï¤é¤º¡¢²Ä»ë¥ì¡¼¥¶¡¼¤ÈƱÅù¤Î¿ô¥Õ¥§¥à¥ÈÉÃÄøÅÙ¤Ëα¤Þ¤Ã¤Æ¤¤¤ë¡£º£²óÄó°Æ¤¹¤ëXFEL¥Ñ¥ë¥¹¤ò°µ½Ì¤¹¤ë¿·¤¿¤Ê¼êË¡*¤Ç¤Ï¡¢Ä¹ÇÈĹ¤Î¥ì¡¼¥¶¡¼¤È¤ÎÁê¸ßºîÍѤˤè¤Ã¤Æ¶û¾õ¤ÎÅÅήʬÉÛ¤òÀ¸À®¤·¡¢¶û¤Î»õ¤ËÁêÅö¤¹¤ëÅÅή¥Ô¡¼¥¯¤Ë¤ª¤¤¤ÆÁýÉý¤ò·«¤êÊÖ¤¹¤³¤È¤Ë¤è¤Ã¤Æ¡¢¸ú²ÌŪ¤ËXFEL¥Ñ¥ë¥¹¤ò°µ½Ì¤¹¤ë¤³¤È¤¬²Äǽ¤Ç¤¢¤ë¡£³Ø²ñ¤Ç¤Ï¡¢ËܼêË¡¤ÎÆ°ºî¸¶Íý¤Ë¤Ä¤¤¤Æ²òÀ⤹¤ë¤È¤È¤â¤Ë¡¢SACLA¤ËŬÍѤ·¤¿¤È¤­¤Ë´üÂÔ¤µ¤ì¤ë¸÷¸»À­Ç½¤ò¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¤Ë¤è¤êµá¤á¤¿·ë²Ì¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£ *T. Tanaka, Phys. Rev. Lett 110, 084801 (2013)
 
18:00 - 18:20 
SAOT09
p.79
[Slides]
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Sustained lasing of HHG-seeded FEL by using EOS-based timing control

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¡ûTakahiro Watanabe (JASRI), Makoto Aoyama (JAEA), Atsushi Iwasaki (Tokyo University), Yuji Otake, Takashi Ohshima (Riken RSC), Yuichi Okayasu (JASRI), Kanade Ogawa (Riken RSC), Shigeki Ohwada, Takahiro Sato (Tokyo Univesity), Tadashi Togashi (JASRI), Kazuaki Togawa, Toru Hara, Takashi Tanaka (Riken RSC), Hiromitsu Tomizawa, Shinichi Matsubara (JASRI), Eiji Takahashi, Katsumi Midorikawa (RIKEN), Makina Yabashi, Koichi Yamakawa, Kaoru Yamanouchi, Hitoshi Tanaka, Tetsuya Ishikawa (RIKEN RSC)
 
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p.83
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Temporal Behavior of FEL Spectrum at ISIR, Osaka University

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¡ûRyukou Kato, Keigo Kawase, Akinori Irizawa, Masaki Fujimoto, Hiroki Ohsumi, Masaki Yaguchi, Sousuke Funakoshi, Ryota Tsutsumi, Shoji Suemine, Goro Isoyama (ISIR, Osaka University), Shigeru Kashiwagi (Electron Light Science Centre, Tohoku University), Shigeru Yamamoto (KEK-PF)
 
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p.90
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Development of radiation management and disaster prevention system based on the positioning sensor network in accelerator facility

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¡ûYasuo Kawabata, Hiroaki Matsuda, Kazunobu Matsumoto, Kaoru Kobayashi (TOBISHIMA Corp.), Shigeaki Tagashira (KANSAI Univ.), Toshiyuki Ooba (NAT), Masakazu Yoshioka (KEK)
 
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p.101
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¡ûTsuyoshi Suwada, Masanori Satoh (Accelerator Laboratory, KEK), Souichi Telada, Kaoru Minoshima (Length Standards Section, AIST)
 
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Accident of J-PARC Slow Extraction Operation

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Momentum loss during slow extraction in the J-PARC MR and its countermeasures

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¡ûFumihiko Tamura, Chihiro Ohmori, Masanobu Yamamoto, Masahito Yoshii (J-PARC center), Alexander Schnase (GSI), Masahiro Nomura, Masahito Tomizawa (J-PARC center)
 
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Beam axis control during slow extraction by dynamic bump in hadron synchrotron

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¡ûKota Torikai, Satoru Yamada, Tatsuaki Kanai, Hikaru Souda, Ken Yusa, Mutsumi Tashiro, Yoshiki Kubota, Akihiko Matsumura, Akito Saitoh, Hirofumi Shimada, Eri Takeshita (GHMC), Takashi Nakano (KCCH)
 
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Double-sided Induction Microtron for Cluster Ions

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¡ûKen Takayama, Toshikazu Adachi, Masayoshi Wake, Katsuya Okamura (KEK)
 
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Formation of large-area heavy-ion uniform beams using multipole magnets in TIARA, JAEA

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¡ûYosuke Yuri, Takahiro Yuyama, Tomohisa Ishizaka, Ken-ichi Yoshida, Ikuo Ishibori, Susumu Okumura (Takasaki, JAEA)
 
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p.143
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Laser Cooling of Mg ion beam at Ion accumuration and Cooler Ring, S-LSR

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¡ûAkira Noda, Masao Nakao (NIRS), Hikaru Souda (Gunma Univ.), Hiromu Tongu (ICR, Kyoto Univ.), Hiromi Okamoto, Kazuya Osaki (AdSM, Hiroshima Univ.), Yosuke Yuri (JAEA, TARRI), Koichi Jimbo (IAE, Kyoto Univ.), Manfred Grieser (MPI-K), Zhengqi He (TUB)
 
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Current status of reconstruction of the 1.2 GeV booster synchrotron at Tohoku University

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¡ûFujio Hinode, Shigeru Kashiwagi, Yoshinobu Shibasaki, Ken Takahashi, Ikuro Nagasawa, Kenichi Nanbu, Toshiya Muto, Hiroyuki Hama (Electron Light Science Centre, Tohoku University)
 
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X-ray generation experiment in STF accelerator on quantum beam technology program

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¡ûHirotaka Shimizu, Mitsuo Akemoto, Aryshev Alex, Sakae Araki, Eiji Kako, Masafumi Fukuda, Shigeki Fukuda, Kazufumi Hara, Hitoshi Hayano, Yosuke Honda, Teruya Honma, Hiroaki Katagiri, Yuuji Kojima, Yoshinari Kondo, Kiyoshi Kubo, Shigeru Kuroda, Toshihiro Matsumoto, Hideki Matsushita, Shinichiro Michizono, Takako Miura, Yoshiyoshi Miyoshi, Yuuichi Morozumi, Takashi Naito, Hirotaka Nakai, Hiromitsu Nakajima, Kota Nakanishi, Shuuichi Noguchi, Toshiyuki Okugi, Tsunehiko Omori, Takayuki Saeki, Hiroshi Sakai, Masato Sato, Tetsuo Shidara, Toshio Shishido, Tateru Takenaka, Toshiaki Tauchi, Nobuhiro Terunuma, Kiyosumi Tsuchiya, Kensei Umemori, Junji Urakawa, Seiya Yamaguchi, Akira Yamamoto, Yasuchika Yamamoto, Yoshiharu Yano, Ken Watanabe (KEK), Kazuyuki Sakaue (Waseda Univ.), Seiichi Hosoda, Hokuto Iijima, Masao Kuriki (Hiroshima Univ.), Goro Isoyama, Ryukou Kato, Keigo Kawase (Osaka Univ.), Ayaka Kuramoto, Omet Mathieu, Rawanka Arpit (SOKENDAI), You Yan (Tsinghua Univ.)
 
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10:50 - 11:10 
SUOS03
p.154
[Slides]
27 MHzÅŻҥӡ¼¥à¤Ë¤è¤ëTHz-FELȯÀ¸»î¸³
Study of THz-FEL with 27 MHz electron beam operation

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¡ûKeigo Kawase, Shoji Suemine, Ryukou Kato, Akinori Irizawa, Masaki Fujimoto, Hiroki Osumi, Masaki Yaguchi, Sousuke Funakoshi, Ryouta Tsutsumi, Kazuya Furukawa, Kumiko Kubo, Akira Tokuchi, Goro Isoyama (ISIR, Osaka Univ. )
 
ÂçºåÂç³Ø»º¶È²Ê³Ø¸¦µæ½ê¤Ç¤Ï¡¢L¥Ð¥ó¥É¥é¥¤¥Ê¥Ã¥¯¤òÍѤ¤¤ÆTHzÎΰè¤Î¼«Í³ÅŻҥ졼¥¶¡¼¤Î¸¦µæ¤ò¼Â»Ü¤·¤Æ¤¤¤ë¡£¸½ºß¤Î¤È¤³¤í¡¢ÅŻҽƤ«¤éDC¥Ó¡¼¥à¤òÆþ¼Í¤·¡¢108 MHz¤Î¥µ¥Ö¥Ï¡¼¥â¥Ë¥Ã¥¯¥Ð¥ó¥Á¥ã¡¼¤Ç9.2 ns¤´¤È¤Î¥Ñ¥ë¥¹¤òÀ¸À®¤·¡¢FEL¥Ó¡¼¥à¥é¥¤¥ó¤Ø¥Ó¡¼¥à¤ò¶¡µë¤·¤Æ¤¤¤ë¡£¤·¤«¤·¤Ê¤¬¤é¡¢FEL¸÷¶¦¿¶´ï¤Î¸÷±ýÉü´Ö³Ö¤Ï37 ns¤Ç¡¢FEL¸÷¥Ñ¥ë¥¹¤È¤·¤Æ¤Ï4¥Ñ¥ë¥¹¤¬ÆÈΩ¤ËÀ¸À®¤µ¤ì¤Æ¤¤¤ë¡£FEL¥²¥¤¥ó¤ÏÅŻҥӡ¼¥à¤Î¥Ð¥ó¥ÁÅŲ٤˰͸¤¹¤ë¤¬¡¢²Ã®´É¤Ë¤ª¤±¤ë¥Ó¡¼¥à¥í¡¼¥Ç¥£¥ó¥°¤Ï¤¹¤Ç¤ËÂ礭¤¯¡¢Ã±½ã¤ËÆþ¼ÍÅÅή¤ò¾å¤²¤Æ¤âÂ礭¤Ê¥²¥¤¥óÁýÂç¤Ï˾¤á¤Ê¤¤¡£¤½¤³¤Ç¡¢¸½ºß¥Ð¥ó¥ÁÅŲ٤òÁýÂ礹¤ë¤¿¤á¤ËÅŻҽƤζîÆ°¤ò27 MHz¤Ç¥Ð¡¼¥¹¥ÈÆ°ºî¤µ¤»¤ë¤³¤È¤Ë¤è¤ê¡¢Ê¿¶Ñ¥Ó¡¼¥àÉé²Ù¤Ï¸½¾õ¤òÊݤ俤ޤޥХó¥ÁÅŲ٤ò£´Çܤˤ¹¤ë¤³¤È¤ò¿Ê¤á¤Æ¤¤¤ë¡£¤³¤ì¤Ë¤è¤ê¡¢²óÀÞ»¼º¤¬Â礭¤¯¤Ê¤ë¤è¤êŤ¤ÇÈĹÎΰè¤Þ¤Çȯ¿¶ÇÈŤò³ÈÄ¥¤¹¤ë¤³¤È¤¬´üÂԤǤ­¤ë¡£ËÜȯɽ¤Ç¤Ï¡¢¤³¤Î27 MHzÅŻҥӡ¼¥à¤ÎÀ¸À®¤È²Ã®¡¢¤½¤·¤Æ¤³¤Î¥Ó¡¼¥à¤òÍѤ¤¤¿THz-FELȯÀ¸¤Ë¤Ä¤¤¤Æ¤Î¸½¾õ¤òÊó¹ð¤¹¤ë¡£¡¡
 
11:10 - 11:30 
SUOS04
p.158
°ÌÁê¶õ´ÖÀ©¸æ¤Ë¤è¤ë THz ÂÓ¥Þ¥¤¥¯¥í¥Ð¥ó¥ÁÀ¸À®¤Î¸¦µæ
Research on THz-band micro-bunch generation by phase-space control

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¡ûShohei Otsuki (NEM, Tokyo Univ.), Masao Kuriki (AdSM, Hiroshima Univ.)
 
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11:30 - 11:50 
SUOS05
p.163
[Slides]
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Measurement of the FEL micro pulse using autocorrelation method

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¡ûHiroki Ohsumi, Ryuko Kato, Keigo Kawase, Akinori Irizawa, Masaki Fujimoto, Masaki Yaguchi, Sousuke Funakoshi, Ryota Tsutsumi, Gorou Isoyama (Institute of Scientific and Industrial Research, Osaka University)
 
²æ¡¹¤Ï±óÀÖ³°Îΰè¤Î¼«Í³ÅŻҥ졼¥¶¡¼(FEL)¤Î³«È¯¤ÈFELʪÍý¤Î¸¦µæ¤ò¹Ô¤Ê¤Ã¤Æ¤¤¤ë¡£FEL¤Ï¡¢ÅŻҥӡ¼¥à¤Î»þ´Ö¹½Â¤¤òÈ¿±Ç¤·¤Æ¡¢ÅŻҥХó¥Á¤ÈƱÄøÅ٤λþ´ÖÉý(20¡Á30ps)¤ò»ý¤Ä¥ß¥¯¥í¥Ñ¥ë¥¹¤¬9.2ns¤Î»þ´Ö´Ö³Ö¤Ç¿ô100¸Äʤó¤Ç¥Þ¥¯¥í¥Ñ¥ë¥¹¤ò¹½À®¤¹¤ë¡£FEL¥Ñ¥ë¥¹¤Î»þ´Ö¹½Â¤¤ò¬Äꤹ¤ë¤¿¤á¤ËÄ̾Ge:Ga¸¡½Ð´ï¤òÍѤ¤¤ë¤¬¡¢¤½¤Î»þ´Öʬ²òǽ¤Ï10ns¤è¤ê¤âÃÙ¤¤¤¿¤áFEL¥ß¥¯¥í¥Ñ¥ë¥¹¤òʬ²ò¤·¤Æ¬Äꤹ¤ë¤³¤È¤Ï¤Ç¤­¤Ê¤¤¡£FEL¥ß¥¯¥í¥Ñ¥ë¥¹¤Î»þ´Ö¹½Â¤¤Ï¡¢²óÀ޳ʻÒʬ¸÷´ï¤Ç¬Äꤹ¤ëÇÈĹ¥¹¥Ú¥¯¥È¥ë¤ËÂФ·¤ÆÁêÊäŪ¤Ê¾ðÊó¤òÆÀ¤é¤ì¤ë¤Î¤Ç¶½Ì£¤¢¤ë¸¦µæÂоݤǤ¢¤ë¡£¿ôǯÁ°¤Ë¥Þ¥¤¥±¥ë¥½¥ó´³¾Ä·×¤òÍѤ¤¤¿¼«¸ÊÁê´ØË¡¤Î»î¸³¼Â¸³¤ò¹Ô¤¤´³¾Ä¥Ñ¥¿¡¼¥ó¤ò·×¬¤·¤Æ¡¢¸÷¶¦¿¶´ïŰ͸À­¤òÆÀ¤¿¡£Ëܸ¦µæ¤Ï¡¢¥Þ¥¤¥±¥ë¥½¥ó´³¾Ä·×¤òÍѤ¤¤¿¼«¸ÊÁê´ØË¡¤Ë¤è¤ëFEL»þ´Ö¹½Â¤¤Î¼Â¸³¤òºÆ³«¤·¤Æ¡¢°ÊÁ°¤Î¼Â¸³¤ÎºÆ¸½¤«¤éFEL¤Î¹­¤¤Æ°ºîÎΰè¤Ç¤Î¬Äê¤Ë³ÈÄ¥¤¹¤ë·×²è¤Ç¤¢¤ë¡£ËÜÊó¹ð¤Ç¤Ï¡¢¼Â¸³¤Î³µÍפò¾Ò²ð¤·¡¢ÆÀ¤é¤ì¤¿¼Â¸³·ë²Ì¤È¤½¤Î²òÀÏ·ë²Ì¤òÊó¹ð¤¹¤ë¡£
 
11:50 - 12:10 
SUOS06

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Measurement of FEL power using a fast detector
¡ûÆ£ËÜ Õòµ±¡¤²ÃÆ£ ζ¹¥¡¤ÀîÀ¥ ·¼¸ç¡¤Æþß· ÌÀŵ¡¤Âç³Ñ ´²¼ù¡¤Ìð¸ý ²íµ®¡¤Á¥±Û ÁÔμ¡¤Äé μÂÀ¡¤°ë»³ ¸çϯ¡ÊºåÂ绺¸¦¡Ë
¡ûMasaki Fujimoto, Ryukou Kato, Keigo Kawase, Akinori Irizawa, Hiroki Osumi, Masaki Yaguchi, Sousuke Funakoshi, Ryouta Tsutsumi, Goro Isoyama (ISIR, Osaka University)
 
²æ¡¹¤ÏFELÁýÉýΨ¤Îɾ²Á¤òÌÜŪ¤È¤·¡¢¹â´¶Å٤ʸ¡½Ð´ï¤òÍѤ¤¤Æ¥Æ¥é¥Ø¥ë¥Ä¼«Í³ÅŻҥ졼¥¶¡¼(THz-FEL)¤Î¥Ñ¥ï¡¼¤Î»þ´ÖȯŸ¤ò¹­¤¤¶¯ÅÙÎΰè¤Ç¬Äꤹ¤ë¼êË¡¤ò³«È¯¤·¤Æ¤¤¤ë¡£¤³¤ì¤Þ¤ÇÌó5·å¤Ë¤ï¤¿¤ë¥À¥¤¥Ê¥ß¥Ã¥¯¥ì¥ó¥¸¤ò¤â¤ÄSi¥Ü¥í¥á¡¼¥¿¤òÍѤ¤¡¢ÁýÉý²ó¿ô¤òÊѤ¨¤Ê¤¬¤éȯ¿¶¤·¤¿FEL¥Ñ¥ë¥¹¤Î¥¨¥Í¥ë¥®¡¼¤ò·×¬¤·¡¢¶¦¿¶´ïFEL¤Î»þ´Ö¥¹¥Ú¥¯¥È¥ë¥â¥Ç¥ë¤òÍѤ¤¤Æ¥Ñ¥ï¡¼¤ÎÀ®Ä¹²áÄø¤òµá¤á¤Æ¤­¤¿¡£¸½ºß¤Ç¤Ï²óµ¢Ê¬ÀϤòÍѤ¤¤Æ¤µ¤é¤Ë¥Î¥¤¥º¤ËËä¤â¤ì¤¿Ä㶯Å٤ο®¹æ¤òÉü¸µ¤·¡¢Ìó9·å¤Ë¤ï¤¿¤ë¥¨¥Í¥ë¥®¡¼¤ÎÊѲ½¤ò·×¬¤¹¤ë¤³¤È¤ËÀ®¸ù¤·¤Æ¤ª¤ê¡¢FEL¥Ñ¥ï¡¼¤ÎÀ®Ä¹¤ò¼«È¯Êü¼Í¤«¤é¥Ñ¥ï¡¼Ë°Ï¤ޤǬÄꤹ¤ë¤³¤È¤¬²Äǽ¤È¤Ê¤Ã¤¿¡£°ìÊý¡¢¿ôs¤ÎFEL¥Ñ¥ë¥¹¤ËÂФ·¤Æ½½Ê¬¤Ë®¤¤±þÅú®ÅÙ¤ò¤â¤ÄGe:Ga¸¡½Ð´ï¤òÍѤ¤¤ÆFEL¥Ñ¥ï¡¼¤Î»þ´ÖȯŸ¤ò¬Äꤹ¤ë¡£Ge:Ga¸¡½Ð´ï¤ÏSi¥Ü¥í¥á¡¼¥¿¤ËÈæ¤Ù¤Æ¥À¥¤¥Ê¥ß¥Ã¥¯¥ì¥ó¥¸¤¬¾®¤µ¤¤¡£¤³¤Î¤¿¤áFELȯ¿¶ÇÈĹ(~100m)¤Ç¸º¿êΨ¤ò³ÓÀµ¤·¤¿¥Æ¥Õ¥í¥ó¥Ö¥í¥Ã¥¯¤ò¸º¿êºà¤È¤·¡¢¸ü¤ß¤òÊѤ¨¤Ê¤¬¤éFEL¥Ñ¥ë¥¹¤ò·×¬¤¹¤ë¡£¤½¤·¤Æ¡¢³ÆÇÈ·Á¤ò½Å¤Í¤ë¤³¤È¤ÇFEL¥Ñ¥ë¥¹¤ÎÀ®Ä¹²áÄø¤òÆÀ¤¿¡£Ge:Ga¸¡½Ð´ï¤òÍѤ¤¤¿Â¬Äê¤Ç¤Ï¥¢¥ó¥×¤òÍѤ¤¤ë¤³¤È¤Ç¡¢¥Ü¥í¥á¡¼¥¿¤ÈƱÍͤ˼«È¯Êü¼Í¤«¤éFEL¥Ñ¥ï¡¼¤Î»þ´ÖȯŸ¤ò·×¬¤¹¤ë¤³¤È¤¬²Äǽ¤È¤Ê¤Ã¤¿¡£ËÜÊó¹ð¤Ç¤Ï¡¢Si¥Ü¥í¥á¡¼¥¿¤ÈGe:Ga¸¡½Ð´ï¤Ë¤è¤Ã¤Æ¬Äꤷ¤¿FEL¥Ñ¥ï¡¼¤Î»þ´ÖȯŸ¤ÎÈæ³Ó¤ò¹Ô¤¦¤È¤È¤â¤Ë¡¢FELÁýÉýΨ¤Î»þ´ÖÊѲ½¤òµá¤á¤ë¡£
 
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16:20 - 16:50 
SUOTS1

[Slides]
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Linear Collider Projects: A Challenge of Physics
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¡ûTohru Takeshita (Shinshu University, Faculty of Science)
 
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16:50 - 17:20 
SUOTS2

[Slides]
¥ê¥Ë¥¢¥³¥é¥¤¥À¡¼·×²è¡ÊILC¡Ë- ²Ã®´ï²Ê³Ø¤ÎÄ©Àï -
Linear Collider Projects: A Challenge of Accelerator Science
¡û·ªÌÚ ²íÉסʹ­ÅçÂç³ØÀèü¸¦¡Ë
¡ûMasao Kuriki (AdSM, Hiroshima University)
 
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9:00 - 10:00 
MOOTL1

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¡ûShigeki Fukuda (High Energy Accelerator Research Organization)
 
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10:10 - 10:30 
MOOT01
p.167
[Slides]
J-PARC/MUSE¤Ë¤ª¤±¤ë¥ß¥å¥ª¥óÀ¸À®É¸Åª¤Î300kWÍÛ»Ò¥Ó¡¼¥à±¿Å¾Êó¹ð
Report for Muon Production Target with the 300-kW proton beam operation at MUSE/MLF/J-PARC

¡ûËÒ¼ ½Ó½õ¡ÊKEK-ʪ¹½¸¦¥ß¥å¥ª¥ó¡Ë¡¤À¶¿å μ¡ÊNAT¡Ë¡¤²Ï¼ À®È¥¡ÊKEK-ʪ¹½¸¦¥ß¥å¥ª¥ó¡Ë¡¤ÌÀ¸á ¿­°ìϺ¡Ê¸¶¸¦Å쳤¸¦¡Ë¡¤»°Â𠹯Ç¾®ÎÓ ÍÇÃË¡ÊKEK-ʪ¹½¸¦¥ß¥å¥ª¥ó¡Ë¡¤Âç°æ ¸µµ®¡¤Ôª ÆØ¡¤ÃÓºê À¶Èþ¡Ê¸¶¸¦Å쳤¸¦¡Ë¡¤µ´ß· Áï»Ö¡¤¾¾ß· ¹ÔÍΡÊNAT¡Ë¡¤¹¬ÅÄ ¾Ï¹¨¡¤Æ£¿¹ ´²¡¤²¼Â¼ ¹À°ìϺ¡¤¥¹¥È¥é¥Ã¥µ¡¼ ¥Ñ¥È¥ê¥Ã¥¯¡¤¾®Åè ·ò»ù¡¤À¾»³ ¾ÀÀ¸¡¤Ãæ¼ Æ×Ê¿¡¤ÌçÌî ÎÉŵ¡ÊKEK-ʪ¹½¸¦¥ß¥å¥ª¥ó¡Ë
¡ûShunsuke Makimura (KEK, IMSS, Muon), Ryo Shimizu (NAT), Naritoshi Kawamura (KEK, IMSS, Muon), Shinichiro Meigo (JAEA-Tokai), Yasuhiro Miyake, Yasuo Kobayashi (KEK, IMSS, Muon), Motoki Ooi, Atsushi Akutsu, Kiyomi Ikezaki (JAEA-Tokai), Satoshi Onizawa, Yukihiro Matsuzawa (NAT), Akihiro Kouda, Hiroshi Fujimori, Kouichiro Shimomura, Patrick Strasser, Kenji Kojima, Kusuo Nishiyama, Jumpei Nakamura, Ryosuke Kadono (KEK, IMSS, Muon)
 
The most intense pulsed muon beam will be generated by a 3-GeV 333-microA proton beam on a muon target made of 20-mm thick isotropic graphite (IG-430) in J-PARC/MUSE (Muon Science Establishment). The energy deposited by a 1-MW proton beam is estimated to be 3.9kW on the muon target. The first muon beam was successfully generated on September 26th, 2008. Gradually upgrading the beam intensity, continuous 300-kW proton beam operation was started in January of 2013. The temperatures of the principle components have been measured and recorded through thermo-couples and a control system. The lifetime of the muon target is determined by a proton-irradiation damage of the graphite. Even in the 300-kW operation to July of 2013, the radiation damage was anticipated to surpass the lifetime. Therefore, the position of the proton beam has been moved to eight surrounding positions every three weeks to distribute the radiation damage uniformly to a wider area. The position-control is named EXILE operation. The variation of the temperatures at the muon target has been monitored. In this report, the status of proton beam operation and the lifetime extension of the muon target will be described.
 
10:30 - 10:50 
MOOT02
p.170
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Recent developments in the RIKEN 28-GHz SC-ECRIS

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¡ûYoshihide Higurashi, Jun-ichi Ohnishi, Kazutaka Ozeki, Hiromitsu Haba, Masanori Kidera, Takahide Nakagawa (RIKEN Nishina Center)
 
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10:50 - 11:10 
MOOT03
p.174
[Slides]
¸÷±¢¶ËľήÅŻҽƤ«¤é500keV-mAÅŻҥӡ¼¥à¤ÎÀ¸À®
Generation of a 500-keV electron beam with mA current from a photoemission DC gun

¡ûÀ¾¿¹ ¿®¹Ô¡¤±Ê°æ Îɼ£¡¤¾¾ÍÕ ½ÓºÈ¡¤±©Åç ÎÉ°ì¡Ê¸¶»ÒÎϵ¡¹½¡Ë¡¤»³ËÜ ¾­ÇµÜÅç »Ê¡¤ËÜÅÄ Íβð¡¤Æ⻳ δ»Ê¡Ê¹â¥¨¥Í¸¦¡Ë¡¤ÈÓÅç ËÌÅÍ¡¤·ªÌÚ ²íÉסʹ­ÅçÂç³Ø¡Ë¡¤·¬¸¶ ¿¿¿Í¡Ê̾¸Å²°Âç³Ø¡Ë
¡ûNobuyuki Nishimori, Ryoji Nagai, Shunya Matsuba, Ryoichi Hajima (JAEA), Masahiro Yamamoto, Tsukasa Miyajima, Yosuke Honda, Takashi Uchiyama (KEK), Hokuto Iijima, Masao Kuriki (Hiroshima University), Makoto Kuwahara (Nagoya University)
 
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MOOT04
p.179
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Numerical Study on Electron Beam Properties in Triode Type Thermionic RF Gun

¡û»°Åç ·òÂÀ¡¤KONSTANTIN TORGASIN¡¤ÁýÅÄ ³«¡¤¸¤»ô ¸µÀ²¡¤±ü¼ ·òÍ´¡¤NEGM HANI¡¤OMER MAHAMED¡¤µÈÅÄ ¶³Ê¿¡¤Á´ ßÛ½Ó¡¤µª°æ ½Óµ±¡¤Âç³À ±ÑÌÀ¡ÊµþÅÔÂç³Ø¥¨¥Í¥ë¥®¡¼Íý¹©³Ø¸¦µæ½ê¡Ë
¡ûKenta Mishima, Torgasin Konstantin, Kai Masuda, Motoharu Inukai, Kensuke Okumura, Hani Negm, Mahamed Omer, Kyouhei Yoshida, Heishun Zen, Toshiteru Kii, Hideaki Ohgaki (Inst. of Advanced Energy, Kyoto Univ.)
 
µþÅÔÂç³Ø¼«Í³ÅŻҥ졼¥¶¡¼¡ÊKU-FEL¡Ë¤Ç¤Ï¡¢ÅŻҸ»¤ËÇ®±¢¶Ë·¿¹â¼þÇÈÅŻҽƤ¬ºÎÍѤµ¤ì¤Æ¤¤¤ë¡£Ç®±¢¶Ë¤Ï¡¢¸÷±¢¶Ë¤ËÈæ¤Ù¤Æ¾®·¿¤Ç·ÐºÑŪ¡¢±¿Å¾¤¬Íưס¢Ê¿¶ÑÅÅή¤¬¹â¤¤¤È¤¤¤¦Ä¹½ê¤¬¤¢¤ë¡£¤·¤«¤·¤Ê¤¬¤é¡¢¹â¼þÇÈÅŻҽƤˤª¤¤¤Æ¤Ï±¢¶Ë¤«¤é°ú¤­½Ð¤µ¤ì¤¿ÅŻҤΰìÉô¤¬¹â¼þÇȲî¶õƹ¤Ë¤ª¤¤¤Æ¸ºÂ®°ÌÁê¤Ë¾è¤Ã¤ÆµÕ²Ã®¤µ¤ì±¢¶Ë¤ËÌá¤Ã¤Æ¤­¤Æ¤·¤Þ¤¤¡¢¾×Æͤ·¤Æ±¢¶Ë¤ò²ÃÇ®¤·¡¢¤½¤Î·ë²Ì¥Þ¥¯¥í¥Ñ¥ë¥¹Ä¹¤ÎÀ©¸Â¤äÅŻҥӡ¼¥à¤Î¼Á¤ÎÄã²¼¤ò¾·¤¯¡£¤³¤Î²ÝÂê¤ò²ò·è¤·¡¢À¸À®ÅŻҥӡ¼¥à¤Î¹âµ±ÅÙ¡¦Ä¹¥Þ¥¯¥í¥Ñ¥ë¥¹²½¤ò¼Â¸½¤¹¤ë¤¿¤á¤Ë¡¢²æ¡¹¤Ï»°¶Ë´É·¿Ç®±¢¶Ë¹â¼þÇÈÅŻҽƤγ«È¯¤ò¿Ê¤á¤Æ¤¤¤ë¡£¤³¤ì¤Ï±¢¶Ë¤ÎÁ°Êý¤ËƱ¼´¶¦¿¶¶õƶ¤òÄɲä·¡¢¤½¤ÎÅų¦¤Ë¤è¤Ã¤ÆÅŻҤÎÊü½Ð¤òÀ©¸æ¤¹¤ë¤È¤¤¤¦¤â¤Î¤Ç¡¢¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¤Ç¤Ï¥Ó¡¼¥àµ±ÅÙ¤òÄã²¼¤µ¤»¤ë¤³¤È¤Ê¤¯µÕήÅŻҤˤè¤ë±¢¶Ë¤Ø¤ÎÇ®ÆþÎϤò80%°Ê¾åºï¸º¤Ç¤­¤ë¤È¤¤¤¦·ë²Ì¤òÆÀ¤Æ¤¤¤ë¡£¸½ºßKU-FEL¤Î¹â¼þÇÈÅŻҽƤ˥¤¥ó¥¹¥È¡¼¥ë¤·¤Æ»°¶Ë´É·¿¤È¤¹¤ë¤¿¤á¤ÎƱ¼´¶¦¿¶¶õƹ¤òÀ߷ס¦À½ºî¤·¤Æ¤¤¤ë¡£Æ±¼´¶¦¿¶¶õƶ¤Ï¶¦¿¶¼þÇÈ¿ô¤ÎÁÆÄ´µ¡¹½¤È¤·¤Æ¡¢Æ¼¤Î¥¹¥Ú¡¼¥µ¤òÁÞÆþ¤¹¤ë»ö¤Ç¶õƶŤòÊѲ½¤µ¤»¤é¤ì¤ëÍͤˤ·¤¿¡£¤·¤«¤·¡¢¶õƶŤòÊѤ¨¤ë¤È¡¢¥Ó¡¼¥à¸÷³Ø·Ï¤¬ÊѲ½¤¹¤ë¡£º£²ó¤Îȯɽ¤Ç¤Ï¡¢ÅŻҥӡ¼¥àÆÃÀ­¤ÎƼ¥¹¥Ú¡¼¥µ¤Î¸ü¤µ¤ËÂФ¹¤ë°Í¸À­¤ò¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¤ÇÄ´ºº¤·¤¿·ë²Ì¤òÊó¹ð¤¹¤ë¡£
 
11:30 - 11:50 
MOOT05
p.184
¸÷ÃßÀѶ¦¿¶´ï¤òÍѤ¤¤¿¥ì¡¼¥¶¡¼¥³¥ó¥×¥È¥ó»¶ÍðXÀþ¸»¤Î³«È¯
Development of a compact X-ray source via laser-Compton scattering using an optical super-cavity

¡ûºä¾å ÏÂÇ·¡¤ÏÉÈø Êý°ì¡ÊÁá°ðÅÄÂç³Ø¡Ë¡¤¹ÓÌÚ ±É¡¤Aryshev Alexander¡¤±ºÀî ½ç¼£¡¤¾È¾Â ¿®¹À¡¤Ê¡ÅÄ ¾­»Ë¡¤»°¹¥ ÉÒ´î¡Ê¹â¥¨¥Í¸¦¡Ë
¡ûKazuyuki Sakaue, Masakazu Washio (Waseda University), Sakae Araki, Alexander Aryshev, Junji Urakawa, Nobuhiro Terunuma, Masafumi Fukuda, Toshinobu Miyoshi (KEK)
 
²æ¡¹¤ÏÅÅ»ÒÀþ·Á²Ã®´ï¤È¸÷ÃßÀѶ¦¿¶´ï¤òÍѤ¤¤¿¥ì¡¼¥¶¡¼¥³¥ó¥×¥È¥ó»¶ÍðXÀþ¸»(LUCX)¤Î³«È¯¤ò¹Ô¤Ã¤Æ¤¤¤ë¡£LUCX¤Ç¤Ï¥ì¡¼¥¶¡¼¥Ñ¥ë¥¹¤È¤Î¾×ÆͲó¿ô¤ò¸þ¾å¤µ¤»¤ë¤¿¤á¤Ë2.8ns´Ö³Ö¤Î¥Þ¥ë¥Á¥Ð¥ó¥Á¥Ó¡¼¥à¤òÀ¸À®¤·¤Æ¤¤¤ë¡£ÅŻҥӡ¼¥à¤Ï¥Õ¥©¥È¥«¥½¡¼¥ÉRFÅŻҽƤˤè¤Ã¤ÆÀ¸À®¤·¡¢²Ã®´É¤Ë¤è¤Ã¤Æ23MeV¤Þ¤Ç²Ã®¤¹¤ë¡£Î¾¶õƹ¤È¤â¤ËÄêºßÇÈ·¿¤È¤¹¤ë¤³¤È¤Ç¥Ó¡¼¥à¥í¡¼¥Ç¥£¥ó¥°¸ú²Ì¤Ë¤è¤ë¥¨¥Í¥ë¥®¡¼º¹¤ò0.06¡ó¤ÈÈó¾ï¤Ë¾®¤µ¤¯¤¹¤ë¤³¤È¤ËÀ®¸ù¤·¤Æ¤¤¤ë¡£ ²Ã®¤µ¤ì¤¿ÅŻҥӡ¼¥à¤Ï¸÷ÃßÀѶ¦¿¶´ïÆâ¤Ë¤ª¤¤¤Æ¥ì¡¼¥¶¡¼¥Ñ¥ë¥¹¤È¾×Æͤ·¡¢Ìó9keV¤ÎXÀþ¤òÀ¸À®¤¹¤ë¡£¸÷¶¦¿¶´ï¤È¤·¤Æ¤Ï4Ëç¤ÎĶÄ㻼º¥ß¥é¡¼¤Ë¤è¤Ã¤Æ¹½À®¤·¤¿Bow-tie·¿¤Î¶¦¿¶´ï¤òºÎÍѤ·¤Æ¤¤¤ë¡£¼þŤòÌó8m¤ÈÈó¾ï¤ËÂ礭¤¯¤È¤ê¡¢¥ß¥é¡¼¾å¤Î¥ì¡¼¥¶¡¼¥µ¥¤¥º¤ò³È¤²¡¢¥ß¥é¡¼¤Ø¤Î¥À¥á¡¼¥¸¤ò²óÈò¤·¤Æ¤¤¤ë¡£¶¦¿¶´ïÆâ¤Ç¤ÏÆþ¼Í¤·¤¿¥ì¡¼¥¶¡¼¸÷¤ÎÌó200Çܤζ¯ÅÙ¤¬ÃßÀѤµ¤ì¤Æ¤ª¤ê¡¢¤Þ¤¿¡¢¶¦¿¶´ï¤Î¼þ²ó¼þÇÈ¿ô¤òÅŻҥӡ¼¥à·«¤êÊÖ¤·¤Î2.8ns¤ÎÄê¿ôÇܤȤ¹¤ë¤³¤È¤Ë¤è¤Ã¤Æ¸úΨ¤è¤¯Á´¤Æ¤Î¥Ð¥ó¥Á¤È¾×Æͤ¹¤ë¤³¤È¤¬²Äǽ¤È¤Ê¤Ã¤Æ¤¤¤ë¡£º£²ó¤³¤Î¤è¤¦¤Ê¹½À®¤ÇXÀþÀ¸À®¤ò¹Ô¤¦¤³¤È¤Ë¤è¤Ã¤Æ¡¢6.4¡ß10^6ph./sec¤ÎXÀþ¶¯ÅÙ¤òãÀ®¤·¤¿¡£¤Þ¤¿¡¢SOI¥Ô¥¯¥»¥ë¥»¥ó¥µ¤ò½é¤á¤ÆÍѤ¤¤ë¤³¤È¤Ë¤è¤Ã¤ÆÈó¾ï¤Ë²òÁüÅÙ¤ÎÎɤ¤XÀþÁü¤Î»£Áü¤ËÀ®¸ù¤·¤¿¡£ Ëֱܹé¤Ç¤ÏLUCX¼Â¸³¤Î¥»¥Ã¥È¥¢¥Ã¥×¤Î¾ÜºÙ¡¢XÀþÀ¸À®»î¸³·ë²ÌµÚ¤Óº£¸å¤ÎŸ˾¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£
 
11:50 - 12:10 
MOOT06
p.188
[Slides]
¥ì¡¼¥¶¡¼¶îưͶÅÅÂβî´ï¤ÎÀß·×
Designing of the laser driven dielectric accelerator

¡û¾®»³ ϵÁ¡Ê¹â¥¨¥Í¸¦¡Ë¡¤¾¾Â¼ Í۲𡤾åºä ½¼¡ÊÅìÂ硦¸¶»ÒÎÏ¡Ë¡¤µÈÅÄ ¸÷¹¨¡¤²Æ°æ ÂóÌé¡Ê¹â¥¨¥Í¸¦¡Ë¡¤¥¢¥¤¥ß¥¢¥Ç¥£¥ó¥° ¥¢¥¤¥ß¥É¥é¡Ê¥³¥Ã¥¯¥¯¥í¥Õ¥È¸¦¡Ë
¡ûKazuyoshi Koyama (KEK), Yosuke Matsumura, Mituru Uesaka (U. Tokyo), Mituhiro Yoshida, Takuya Natsui (KEK), Aimidula Aimierding (Cockcroft Institute)
 
Æ©²á·¿²óÀ޳ʻҤòÍѤ¤¤¿¡¢¥ì¡¼¥¶¡¼¶îưͶÅÅÂβî´ï¤ÎÀ߷פò¿Ê¤á¤Æ¤¤¤ë¡£¤³¤ì¤Þ¤Ç¤Ï¡¢²òÀÏŪ¤ËÅŻҲî¤Î¾ò·ï¤òµá¤á¤Æ·ë²Ì¤Ë´Ø¤·¤Æȯɽ¤·¤¿¤¬¡¢¼ÂºÝ¤Ë¤Ï²óÀÞ¡¦´³¾Ä¤äÈ¿¼Í¤Î±Æ¶Á¤¬¤¢¤ë¤Î¤Ç¡¢À߷פËÅö¤¿¤Ã¤Æ¤ÏÅų¦Ê¬ÉۤϿôÃÍ·×»»¤Çµá¤á¤ëɬÍפ¬¤¢¤ë¡£FDTD(»þ´ÖÎΰ躹ʬˡ)¤Î°ì¤Ä¤Ç¤¢¤ëMeep¥³¡¼¥É¤òÍѤ¤¤ÆÅų¦Ê¬Éۤη׻»¤ò¹Ô¤Ã¤¿¡£ ²óÀ޳ʻÒÆâ¤Î²óÀÞ¡¦´³¾Ä¤äÈ¿¼Í¤Î±Æ¶Á¤Ë¤è¤Ã¤Æ¡¢¼´Êý¸þÅų¦¶¯Å٤ϥХ¤¥¢¥¹¤¬¤«¤«¤Ã¤¿ÍͤÊʬÉۤˤʤꡢºÇ¹â²Ã®¸ûÇÛ¤ÏÌó600MeV/m¤Ç¤¢¤ê¡¢¤³¤ì¤ÏÍýÁÛŪ¤Ê¾ì¹ç¤ÎÌó75%¤Ç¤¢¤ë¡£ÅŻҤήÅÙ¤¬ÃÙ¤¤¾ì¹ç¤Ç¤â¡¢²Ã®¸ûÇÛ¤ÏÍ­¸Â¤ÎÃͤò»ý¤Ä¡£¤Ä¤Þ¤ê¡¢²Ã®µ÷Î¥¤¬¼ã´³±ä¤Ó¤ë»ö(1mmÄøÅÙ)¤òµö¤»¤Ð¡¢Â®ÅÙÀ°¹ç¾ò·ï¤«¤é³°¤ì¤¿ÃÙ¤¤ÅŻҤǤâ²Ã®¤¬²Äǽ¤Ç¤¢¤ë¡£²óÀ޳ʻҤÎÃʺ¹¤ÎÂ礭¤µ¤ÏÇÈŤÎ90%¤¬ºÇŬ¤Ç¤¢¤ê¡¢¤³¤Î·ë²Ì¤Ï²òÀϲò¤È°ìÃפ¹¤ë¡£ ¶õ´ÖÅŲ٤ˤè¤ëÅŻҥХó¥Á¤Î¹­¤¬¤ê¤È²Ã®¥Á¥ã¥ó¥Í¥ë¤«¤éµá¤á¤¿ÅŲÙÎ̤ϡ¢10-100fC¤Ç¤¢¤ë¡£ ¶îÆ°Íѥ졼¥¶¡¼¤Î¥¨¥Í¥ë¥®¡¼¤ò¾®¤µ¤¯¤¹¤ë¤¿¤á¤Ë¤Ï¡¢ÅŻҥХó¥Á¤Î¼þÊÕ¤À¤±¤Ë¥ì¡¼¥¶¡¼Åų¦¤¬Â¸ºß¤¹¤ë¤è¤¦¡¢°ÌÁê¤ò¹ç¤ï¤»¤Ê¤¬¤é¥ì¡¼¥¶¡¼¤òʬ³ä¾È¼Í¤¹¤ë¡£ 1MeV¤ÎÅŻҤòÆÀ¤ë¤¿¤á¤Ë¤Ï¡¢²Ã®Ĺ¤¬2-3mm¡¢²Ã®»þ´Ö¤Ï10-50ps¡¢¥ì¡¼¥¶¡¼¤ò20ʬ³ä¤¹¤ë¤È¥Ñ¥ë¥¹Åö¤¿¤ê¤Î¥¨¥Í¥ë¥®¡¼¤Ï15mJ¤Ç¥Ñ¥ë¥¹Éý¤Ï1-5ps¤È¸«ÀѤâ¤é¤ì¤ë¡£
 
²Ã®´ïµ»½Ñ¡Ê¿ÇÃÇ¡¿À©¸æ£±¡Ë¡¡¡Ê8·î5Æü¡¡¥·¥ó¥Ý¥¸¥ª¥ó²ñµÄ¼¼¡Ë
10:10 - 10:30 
MOOS01
p.191
[Slides]
SuperKEKB¤Ë¸þ¤±¤¿ÅŻҡ¦ÍÛÅÅ»ÒÆþ¼Í´ïLinacÍÑ¥Ó¡¼¥à°ÌÃÖ¥â¥Ë¥¿¡¼¤ÎÆɤ߽Ф·¥·¥¹¥Æ¥à³«È¯
Development of Beam Position Monitor Readout System for Electron-Positron Injector Linac towards the SuperKEKB

¡û°ìµÜ μ¡¤¿ÛˬÅÄ ¹ä¡¤º´Æ£ À¯Â§¡¤µÜ¸¶ ˼»Ë¡¤¸ÅÀî ÏÂϯ¡ÊKEK¡Ë
¡ûRyo Ichimiya, Tsuyoshi Suwada, Masanori Sato, Fusashi Miyahara, Kazuro Furukawa (KEK)
 
¸½ºßKEK¤Ç¤ÏSuperKEKB·úÀߤ˸þ¤±²Ã®´ï¥¢¥Ã¥×¥°¥ì¡¼¥É¤ò¿Ê¤á¤Æ¤¤¤ë¡£L=8¡ß10^35/(cm^2 s)¤òãÀ®¤¹¤ë¤¿¤á¡¢ÅŻҵڤÓÍÛÅŻҥ¨¥ß¥Ã¥¿¥ó¥¹¤ò¤½¤ì¤¾¤ì20mm mrad(5nC)¡¢6mm mrad(4nC)¤Ë¤¹¤ëɬÍפ¬¤¢¤ë¡£¤³¤ì¤ò¼Â¸½¤¹¤ë¤¿¤á¤Ë¤Ï¡¢¥Ó¡¼¥à¸÷³ØÀ߷׾塢0.1mm°ÊÆâ¤Ë²Ã®´É¤ò¥¢¥é¥¤¥á¥ó¥È¤·¤Ê¤±¤ì¤Ð¤Ê¤é¤Ê¤¤¡£°ÂÄꤷ¤ÆBeam Based Alignment¤ò¹Ô¤¦¤¿¤á¤Ë¤Ï¡¢¥Ó¡¼¥à°ÌÃÖ¥â¥Ë¥¿¡¼(BPM)¤Ë¤ÏÍ׵ᤵ¤ì¤ë¥¢¥é¥¤¥á¥ó¥ÈÀºÅÙ¤è¤ê°ì·å¹â¤¤°ÌÃÖʬ²òǽ¤¬µá¤á¤é¤ì¤ë¡£¤·¤«¤·¡¢¤³¤ì¤Þ¤Ç¤Î¥ª¥·¥í¥¹¥³¡¼¥×Æɤ߽Ф·Êý¼°¤ÇÆÀ¤é¤ì¤ë°ÌÃÖʬ²òǽ¤ÏÌó50¦Ìm¤Ç¤¢¤ê¡¢Í×µá¤òËþ­½ÐÍè¤Ê¤¤¡£°ÌÃÖʬ²òǽ10¦Ìm°Ê²¼¤òãÀ®¤¹¤ë¤¿¤á¡¢¶¹ÂÓ°è¥Ð¥ó¥É¥Ñ¥¹¥Õ¥£¥ë¥¿¡¼(BPF)Êý¼°¤òºÎÍѤ·¡¢250MS/s¡¦16bit¥Ñ¥¤¥×¥é¥¤¥óADC¤òÍѤ¤¤¿ÀìÍÑÆɤ߽Ф·²óÏ©¤ò¿·µ¬¤ËÀ߷׳«È¯¤·¤¿¡£SuperKEKB¤Ç¤Ï96ns´Ö³Ö¤Ç2¥Ð¥ó¥ÁÆþ¼Í¤ò¹Ô¤¦¤¿¤á¡¢°ÌÃÖʬ²òǽ¤òÊݤÁ¤Ä¤Ä2¥Ð¥ó¥Á¤òʬΥ¤·¤ÆÆɤ߽Ф·½ÐÍè¤ë¤è¤¦¡¢BPF¤Î¹½À®¤òºÇŬ²½¤·¤¿¡£¤Þ¤¿¡¢ÍÍ¡¹¤Ê¸¶°ø¤Ç·×¬°ÌÃ֤˥ª¥Õ¥»¥Ã¥È¤¬À¸¤¸¤¦¤ë¤¿¤á¡¢Æɤ߽Ф·²óÏ©¾å¤Ë¹»Àµ¥Ñ¥ë¥¹È¯À¸´ï¤òÀßÃÖ¤·¤¿¡£¤³¤ì¤Ï¥Ó¡¼¥à¤ÎÄ̤äƤ¤¤Ê¤¤¤È¤­¤ËBPM¤ËÂФ·¤Æ¹»Àµ¿®¹æ¤òÍ¿¤¨¤ë¤³¤È¤Ë¤è¤ê¡¢¥Á¥ã¥ó¥Í¥ë´Ö¥²¥¤¥óÈæ¤Î¥ª¥ó¥é¥¤¥ó¹»Àµ¤ò¹Ô¤¦»ö¤ò²Äǽ¤È¤¹¤ë¡£¤µ¤é¤Ë¡¢¥ª¥ó¥é¥¤¥ó¹»Àµ¤ò¹Ô¤¦½½Ê¬¤Ê»þ´Ö¤ò³ÎÊݤ¹¤ë¤¿¤á¡¢°ÌÃÖ¡¦ÅŲٱ黻¤ÏÆɤ߽Ф·²óÏ©¾å¤ÎFPGA¤Ç¹Ô¤¤¡¢¹â®²½¤ò¿Þ¤Ã¤¿¡£º£²ó¤Îȯɽ¤Ç¤Ï¡¢¤³¤ì¤é¿·BPMÆɤ߽Ф·²óÏ©¤Î³«È¯¤Î¸½¾õ¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£
 
10:30 - 10:50 
MOOS02
p.194
[Slides]
Study of Longitudinal Phase Space Distribution Measurement via a Linear Focal Cherenkov Ring Camera
¡ûAnusorn Lueangaramwong (Electron Light Science Centre, Tohoku University)
 
At Tohoku University, a study of generation of intense coherent THz radiation from sub-picosecond electron bunches has been developing. Initial electron distribution in the longitudinal phase space produced by an electron gun is crucial for extreme short electron bunch production. For relatively lower energy electrons, a novel method for measurement of electron kinetic energy employing velocity dependence of the opening angle of Cherenkov radiation was proposed. Combined use of a streak camera and a ¡Èturtle-back¡É mirror that confines the Cherenkov light on to a linear focal line may allow us to observe the longitudinal phase space distribution directly. An experimental setup was examined with numerical ray tracing, and a radiator placed outside the vacuum chamber was designed to achieve the highest energy resolution. To extract the electron beam from the vacuum, a beryllium thin film was proposed as a beam window. However, a Geant4 Monte Carlo simulation showed that multiple scatterings of the electron beam in the beryllium window significantly affects the resolution of the Cherenkov angle. Detail of examination will be presented in this conference.
 
10:50 - 11:10 
MOOS03
p.197
[Slides]
¥Ó¡¼¥à°ÌÃÖ¬Äê¤Ë±÷¤±¤ë»°¼¡¥â¡¼¥á¥ó¥È¤Î±Æ¶Á
Third-order moment effect of beam position measurements

¡ûÌøÅÄ ¸¬°ì¡¤ÎëÌÚ ¿­²ð¡¤½Ð±© ±Ñµª¡¤²ÖÌÚ Çîʸ¡Ê¸ø±×ºâÃÄË¡¿Í¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûKenichi Yanagida, Shinsuke Suzuki, Hideki Dewa, Hirofumi Hanaki (Japan Synchrotron Radiation Research Institute)
 
ºòǯ¤Î²Ã®´ï³Ø²ñǯ²ñ¡ÊPASJ9¡Ë¤Ë±÷¤¤¤Æ¡¢Ï»ÅŶËBPM¤Ë±÷¤±¤ëÁ´ÂγÓÀµ¡ÊEntire Calibration¡Ë¤Î¹Ö±é¤ò¹Ô¤Ã¤¿¡£Á´ÂγÓÀµ¤Ï¥Ó¡¼¥à¤ÎÁêÂХ⡼¥á¥ó¥È¤¬ÊѲ½¤·¤Ê¤¤¤È²¾Äꤷ¡¢¥¹¥Æ¥¢¥ê¥ó¥°Åż§ÀФòÍѤ¤¤Æ¥Ó¡¼¥à¤ò¾å²¼º¸±¦¤Ë¿¶¤ê¡¢ÆÀ¤é¤ì¤¿¥Ç¡¼¥¿¤«¤é³ÆÅŶ˴֤ΥХé¥ó¥¹·¸¿ô¡ÊÁêÂÐŪ¸º¿êΨ¡Ë¤ò»»½Ð¤¹¤ë¤â¤Î¤Ç¤¢¤ë¡£ºòǯ¤Ï¥Ð¥é¥ó¥¹·¸¿ô¤ò»»½Ð¤¹¤ë¥×¥í¥°¥é¥à¤¬Ì¤¤À¤ËÀµ¾ï¤ËÆ°ºî¤·¤Ê¤¤¤ÈÊó¹ð¤·¤¿¤¬¡¢¤½¤Î¸¶°ø¤¬È½ÌÀ¤·¤¿¡£¸¶°ø¤Ï¬ÄêÅÅ°µº¹Ê¬¤Ë»°¼¡¥â¡¼¥á¥ó¥ÈÀ®Ê¬¤¬Ìµ»ë¤Ç¤­¤Ê¤¤ÄøÅ٤˴óÍ¿¤·¤Æ¤¤¤¿¤¿¤á¤Ç¤¢¤Ã¤¿¡£SPring-8Àþ·¿²Ã®´ï¤ÎÏ»ÅŶËBPM¤Ç¤Ï¡¢¾å²¼¤ÎÆóÅŶ˵ڤӺ¸±¦¤Î»ÍÅŶˤò»ÈÍѤ·¤Æ¡¢¿âľÊý¸þ¥Ó¡¼¥à°ÌÃÖ¤¬Â¬Äê²Äǽ¤Ç¤¢¤ë¡£¤³¤Î2¤Ä¤Î¿âľÊý¸þ¥Ó¡¼¥à°ÌÃÖ¤¬°ìÃפ¹¤ë¤è¤¦¤Ë¥×¥í¥°¥é¥à¤ò¼Â¹Ô¤·¤¿¤¬¡¢Àµ¤·¤¤¥Ð¥é¥ó¥¹·¸¿ô¤ÏÆÀ¤é¤ì¤Ê¤«¤Ã¤¿¡£¤½¤³¤Ç¡¢»î¤·¤Ë»°¼¡ÀäÂХ⡼¥á¥ó¥È¤Î´óÍ¿¤ò´Þ¤á¤Æ¥×¥í¥°¥é¥à¤ò¼Â¹Ô¤¹¤ë¤ÈÌäÂê̵¤¯¡¢Àµ¤·¤¤¥Ð¥é¥ó¥¹·¸¿ô¤¬ÆÀ¤é¤ì¤¿¡£»°¼¡¥â¡¼¥á¥ó¥È¤Î¾å²¼ÆóÅŶ˵ڤӺ¸±¦»ÍÅŶˤò»ÈÍѤ·¤¿°ÌÃÖ¬Äê¤Ø¤Î´óÍ¿¤¬µÕÉä¹æ¤Ç¤¢¤Ã¤¿¤¿¤áЪΥ¤¬Â礭¤¯¡¢¥Ö¥í¥°¥é¥à¤¬Àµ¾ï¤ËÆ°ºî¤·¤Ê¤«¤Ã¤¿¤Î¤Ç¤¢¤ë¡£¤³¤Î»°¼¡¥â¡¼¥á¥ó¥È¤Î´óÍ¿¤ÏÏ»ÅŶˤΤߤʤ餺¡¢ÆóÅŶˤä»ÍÅŶˤò»ÈÍѤ·¤¿¥Ó¡¼¥à°ÌÃÖ¬Äê¤Ë¤âɬ¤º½Ð¸½¤¹¤ë¤¿¤á¹Íθ¤¬É¬ÍפǤ¢¤ë¡£
 
11:10 - 11:30 
MOOS04

Í­µ¡¥Ý¥Ã¥±¥ë¥¹ EO ·ë¾½¤òÍѤ¤¤¿ÅŻҥХó¥ÁÅŲÙʬÉÛ¬Äê (1)
Electron bunch charge measurements with organic Pockels EO crystals (1)
¡û²¬°Â ͺ°ì¡¤¾¾¸¶ ¿­°ì¡¤ÉÚß· ¹¨¸÷¡ÊJASRI¡Ë¡¤¾®Àî ÁÕ¡¤Æî½Ð ÂÙ°¡¡¤¾¾Àî ·ò¡ÊRIKEN¡Ë
¡ûYuichi Okayasu, Shinichi Mtsusbara, Hiromitsu Tomizawa (JASRI), Kanade Ogawa, Hiroaki Minamide, Takeshi Matsukawa (RIKEN)
 
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11:30 - 11:50 
MOOS05
p.202
SPring-8Àþ·¿²Ã®´ï¤Ë¤ª¤±¤ë¹â®¿¶¤êʬ¤±Æþ¼Í
Fast alternate beam injection from SPring-8 LINAC

¡û½Ð±© ±Ñµª¡¤ÎëÌÚ ¿­²ð¡¤ÌøÅÄ ¸¬°ì¡¤¾®ÎÓ ÍøÌÀ¡¤ÀÄÌÚ µ£¡¤¾®ÎÓ ÏÂÀ¸¡¤¹âͺ ¾¡¡¤º´¡¹ÌÚ Ìмù¡¤²ÖÌÚ Çîʸ¡¤º´¼£ Ķ¼¤¡¤¾¾²¼ ÃÒ͵¡¤ÅÔÃÞ Ç·É§¡¤³§Àî ¹¯¹¬¡¤Ãݼ °é¹À¡Ê¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿-¡Ë¡¤ÃÝÆâ ͵»Ì¡Ê¥¹¥×¥ê¥ó¥°¥¨¥¤¥È¥µ¡¼¥Ó¥¹¡Ë¡¤¾±»Ê Á±É§¡¤µÜËÜ ½¤¼£¡Êʼ¸Ë¸©Î©Âç³Ø¡Ë
¡ûHideki Dewa, Shinsuke Suzuki, Kenichi Yanagida, Toshiaki Kobayashi, Tsuyoshi Aoki, Kazuo Kobayashi, Masaru Takao, Shigeki Sasaki, Hirofumi Hanaki, Choji Saji, Tomohiro Matsushita, Yukihiko Tsuzuki, Yasuyuki Minagawa, Yasuhiro Takemura (JASRI), Hiroshi Takeuchi (SES), Yoshihiko Shoji, Shuji Miyamoto (University of Hyogo)
 
SPring-8¤ÎÀþ·¿²Ã®´ï¡ÊLi¡Ë¤ÏÄ̾ï¥Ö¡¼¥¹¥¿¡¼¥·¥ó¥¯¥í¥È¥í¥ó(Sy)¤ÈNEW SUBARU(NS)¤Î£²¤Ä¤Î¥ê¥ó¥°²Ã®´ï¤Ë1GeVÅŻҥӡ¼¥à¤ò¾ï»þÆþ¼Í¤·¤Æ¤¤¤ë¡¥SPring-8 ÃßÀÑ¥ê¥ó¥°(SR)¤Ë¤ª¤¤¤Æ¥È¥Ã¥×¥¢¥Ã¥×ÃßÀѾõÂÖ¤ò°Ý»ý¤¹¤ë¤¿¤á¤Ë¡¢Li¤«¤éSy¤Ø¤Ï¤ª¤è¤½£±£µÉ䫤飳£°Éäˣ±²óÄøÅÙÆþ¼Í¤·¤Æ¤¤¤ë¡¥Sy¤Ø¤ÎÆþ¼Í¤ÎÌó£µÉÃÁ°¤Ë1GeV¤Î¿¶¤êʬ¤±ÍѤÎÊиþÅż§ÀФòÎ弧¤·¡¤Sy¤ØÆþ¼Í¤¬½ª¤ï¤ë¤ÈÌó£µÉðÊÆâ¤ÇÊиþÅż§ÀФòÈóÎ弧¤ËÀÚ¤êÂؤ¨¤¿¸å¤ËNS¤ËÆþ¼Í¤Ç¤­¤ë¾õÂ֤ˤʤ롥°ìÊýSR¤Ë¤ª¤±¤ëÄ㥨¥ß¥Ã¥¿¥ó¥¹¥Ó¡¼¥à²½¤äÂçÅÅή¥·¥ó¥°¥ë¥Ð¥ó¥Á¤ÎÃßÀѤʤɤÇSR¤ÎÃßÀÑÅÅή¤Î¼÷Ì¿¤¬¤Þ¤¹¤Þ¤¹Ã»¤¯¤Ê¤Ã¤Æ¤¤¤ë¤¿¤á¡¢Sy¤Ø¤ÎÆþ¼Í¤Î´Ö³Ö¤¬º£¸åû¤¯¤Ê¤Ã¤Æ¤¯¤ë¤ÈͽÁÛ¤µ¤ì¤ë¡¥¤Þ¤¿NS¤Ç¤ÏSy¤Ø¤ÎÆþ¼Í´Ö³Ö¤Îû½Ì¤Ëȼ¤¤¡¤Li¤«¤éNS¤ØÆþ¼Í²Äǽ¤Ê»þ´Ö¤¬Ã»¤¯¤Ê¤ê¡¢É¬ÍפÊÆþ¼Í¤¬º¤Æñ¤Ë¤Ê¤ê¤Ä¤Ä¤¢¤Ã¤¿¡¥¤½¤³¤Çº£²óLi¤«¤éSy¤ª¤è¤ÓNS¤Ø¤ÎÆþ¼Í¤ò¹â®¿¶¤êʬ¤±²½¤¹¤ë²þ¤¤ò¤ª¤³¤Ê¤Ã¤¿¡¥¤½¤Î·ë²Ì0.5É䪤­¤ËSy¤ÈNS¤ÎÆþ¼Í¤ÎÀÚ¤êÂؤ¨¤¬²Äǽ¤È¤Ê¤ê¡¤Sy¤ÈNS¤Ë¤È¤â¤ËºÇ¾®£±Éôֳ֤ÇÆþ¼Í¤Ç¤­¤ë¤è¤¦¤Ë¤Ê¤Ã¤¿¡¥º£²óÆþ¼Í¤ÎÀÚ¤êÂؤ¨¤ò¹â®²½¤¹¤ë¤¿¤á¤Ë¡Ê£±¡ËSy¤ÈNS¤ÎÆþ¼Í¥¿¥¤¥ß¥ó¥°¤òƱ´ü²½¤·¡¤0.5É䪤­¤Î¥¿¥¤¥à¥·¥§¥¢¥ê¥ó¥°¤Î¼Â¸½¡Ê£²¡ËÊиþÅż§ÀФΥѥ¿¡¼¥óÎ弧¡¢¡Ê£³¡Ë¥Ó¡¼¥à¥ë¡¼¥È¤ÎÀÚ¤êÂؤ¨¤Î¹â®²½¤Ëȼ¤¦°ÂÁ´¥¤¥ó¥¿¡¼¥í¥Ã¥¯·Ï¤Î²þ½¤¡¢Åù¤ò¹Ô¤Ã¤¿¡¥
 
11:50 - 12:10 
MOOS06
p.207
[Slides]
Event Timing System¤Ë¤è¤ëSuperKEKBÆþ¼ÍÀ©¸æ
Injection control at SuperKEKB with Event Timing System

¡û³á ͵»Ö¡¤´äºê ¾»»Ò¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë¡¤²¬ºê ÃÎÇî¡ÊÅìÆüËܵ»½Ñ¸¦µæ½ê¡Ë¡¤µÆë ±Ñ»Ê¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë¡¤ÁðÌî »ËϺ¡¤¹©Æ£ ÂóÌï¡Ê»°É©Åŵ¡¥·¥¹¥Æ¥à¥µ¡¼¥Ó¥¹¡Ë¡¤¾®ÎÓ Å´Ì顤ËöÉð À»ÌÀ¡¤Èô»³ ¿¿Íý¡¤Ãæ¼ ãϺ¡¤¸ÅÀî ÏÂϺ¡¤µÜ¸¶ ˼»Ë¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë
¡ûHiroshi Kaji, Masako Iwasaki (KEK), Tomohiro Okazaki (East Japan Institute of Technology Co.), Eiji Kikutani (KEK), Shiro Kusano, Takuya Kudo (Mitsubishi Electric System & Service Co.), Tetsuya Kobayashi, Masaaki Suetake, Makoto Tobiyama, Tatsuro Nakamura, Kazuro Furukawa, Fusashi Miyahara (KEK)
 
SuperKEKB¤Ï2015ǯ½éƬ¤Ë±¿Å¾³«»Ï¤¹¤ëKEKB¤Î¸å·Ñ¥×¥í¥¸¥§¥¯¥È¤Ç¤¢¤ë¡£¥Ç¥¶¥¤¥ó¡¦¥ë¥ß¥Î¥·¥Æ¥£¤ÏKEKBÅþãÃͤÎ40ÇܤǤ¢¤ê¡¢Æþ¼Í¥·¥¹¥Æ¥à¤Ë¤Ï¡Ö¼ç¥ê¥ó¥°¤ÎÃßÀÑÅÅή¤ò2Çܡפˤ·¡Ötop-up±¿Å¾¡×¤Ç¤½¤ì¤ò°Ý»ý¤¹¤ë¤³¤È¤¬µá¤á¤é¤ì¤Æ¤¤¤ë¡£ KEKÆþ¼Í´ï¤Ï¡¢ÅŻҡ¦ÍÛÅŻҤμç¥ê¥ó¥°¤Î¾¡¢PF, PF-AR¤ÎÁ´4¥ê¥ó¥°¤Ë¥Ó¡¼¥à¤ò¶¡µë¤·¤Æ¤¤¤ë¡£Ê£¿ô¥ê¥ó¥°Æ±»þ¤Îtop-up±¿Å¾¤Ë¤Ï¡¢Æþ¼Í´ï¥Ñ¥é¥á¡¼¥¿¤Î¤¦¤Á100°Ê¾å¤òÆþ¼Í¥Ñ¥ë¥¹Ëè(ŵ·¿Åª¤Ë¤Ï20msËè)¤ËÊѹ¹¤¹¤ëɬÍפ¬¤¢¤ë¡£¤Þ¤¿¼ç¥ê¥ó¥°Æþ¼Í¤ÎºÝ¤Ï¡¢Ä¾Á°¤Î¥«¥ì¥ó¥È¥â¥Ë¥¿¡¼¾ðÊó¤ò´ð¤Ë¡¢ÅŲ٤ÎÄ㤤RF-Bucket¤ò¼«Æ°Åª¤ËÁª¤ÓÆþ¼Í¤ò¹Ô¤¦¡£ SuperKEKBÍÛÅŻҤϿ·ÀߤΥÀ¥ó¥Ô¥ó¥°¥ê¥ó¥°¤òÄ̤·Æþ¼Í¤µ¤ì¤ë¡£¤³¤Î»þ¡¢Æþ¼Í´ÉÍý¤ÏĹ´ü¤Ë¤ï¤¿¤ê¡¢¾å½Ò¤ÎÆþ¼ÍBucketÁªÂò¤Ï¤è¤êÊ£»¨¤Ë¤Ê¤ë¡£ ²æ¡¹¤ÏMRF¼ÒÀ½Event Timing¥â¥¸¥å¡¼¥ë¤Ë¤è¤ëÆþ¼Í¥¹¥±¥¸¥å¡¼¥ë´ÉÍý¡¦À©¸æ¤ò¸¡Æ¤¤·¤Æ¤¤¤ë¡£¤³¤Î¥â¥¸¥å¡¼¥ë¤Ï8.8ns¹ï¤ß¤ÇºÇĹ37ÉäΥ¿¥¤¥ß¥ó¥°¤òÀ¸À®¤Ç¤­(114.24MHz RF clockƱ´ü»þ)¡¢¤½¤ÎÀºÅÙ¤Ï10psÄøÅ٤Ǥ¢¤ë¡£¤Þ¤¿248¼ïÎà¤Î¥È¥ê¥¬¡¼(Event)¤òºÇÂç2048¸Ä¥¹¥±¥¸¥å¡¼¥ë¤¹¤ë¤³¤È¤¬¤Ç¤­¤ë¡£¤³¤Î¥â¥¸¥å¡¼¥ë¤ò2¤ÄľÎó¤ËÀܳ¤·¡¢¾åή¦¥â¥¸¥å¡¼¥ë¤Ç¡ÖÆþ¼Í¥¹¥±¥¸¥å¡¼¥ë´ÉÍý¡×¡¢²¼Î®Â¦¤Ç20msËè¤Ë¡Ö¼ç¥ê¥ó¥°¤ÎÆþ¼ÍBucketÁªÂò¡×¤ò¤µ¤»¤ë¤³¤È¤Ç¡¢SuperKEKB¤ÎÊ£»¨¤ÊÆþ¼ÍÀ©¸æ¤ò¼Â¸½¤¹¤ë¡£ Ëֱܹé¤Ç¤Ï¡¢SuperKEKBÆþ¼ÍÀ©¸æ¤Î³µÍפòÀâÌÀ¤·¡¢Event Timing System¤Î¥Ç¥¶¥¤¥ó¤È¤½¤ÎÀ­Ç½»î¸³¤Î·ë²Ì¤òÊó¹ð¤¹¤ë¡£
 
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13:00 - 13:20 
MOOT07

¼«¸Ê°ÌÁêÊÑÄ´¤òÍѤ¤¤¿ÃæÀÖ³°FEL¥¹¥Ú¥¯¥È¥ë¤Î¹­ÂÓ°è²½
Spectral broadening of mid-infrared FEL by self-phase modulation
¡ûÃæÅè δ¡¤Wang Xiaolong¡¤Qin Yu¡¤Á´ ßÛ½Ó¡¤µª°æ ½Óµ±¡¤Âç³À ±ÑÌÀ¡ÊµþÂ票¥Í¸¦¡Ë
¡ûTakashi Nakajima, Xiaolong Wang, Yu Qin, Heishun Zen, Toshiteru Kii, Hideaki Ohgaki (IAE, Kyoto Univ.)
 
FEL¤ÏÇÈĹ²ÄÊѥ졼¥¶¡¼¤Ç¤Ï¤¢¤ë¤¬¡¤ÍÍ¡¹¤Êʬ¸÷±þÍѤò¹Í¤¨¤ë¤ÈÇÈĹÁÝ°ú¤ò¤Ê¤ë¤Ù¤¯Èò¤±¤Æ¥Ç¡¼¥¿¤ò¼è¤ë¤³¤È¤¬¤Ç¤­¤ì¤Ð¤è¤êÍøÊØÀ­¤¬¹â¤Þ¤ë¡£¤½¤³¤Ç²æ¡¹¤Ï¡¤ÈóÀþ·Á¸÷³Ø¸ú²Ì¤Î°ì¼ï¤Ç¤¢¤ë¼«¸Ê°ÌÁêÊÑÄ´¤ò±þÍѤ·¤ÆFEL¥¹¥Ú¥¯¥È¥ë¤ÎÂÓ°è¤ò³ÈÂ礹¤ë¤³¤È¤ò»î¤ß¤¿¡£¤³¤Î¼êË¡¤Ï¥Á¥¿¥ó¥µ¥Õ¥¡¥¤¥¢¥ì¡¼¥¶¡¼¤Ê¤É¤Î¶áÀÖ³°Îΰè(800 nm)¤Ç¤ÏÎɤ¯»È¤ï¤ì¤ë¼êË¡¤Ç¤Ï¤¢¤ë¤¬¡¤¥Á¥¿¥ó¥µ¥Õ¥¡¥¤¥¢¥ì¡¼¥¶¡¼¤Î¥Ñ¥é¥á¥È¥ê¥Ã¥¯¸÷¤ò¸÷¸»¤È¤·¤¿ÃæÀÖ³°¡Ê2-5¦Ìm¡Ë¤Ç¤ÎÊó¹ðÎã¤È¤Ê¤ë¤È¶Ë¤á¤Æ¾¯¤Ê¤¤¡£¤µ¤é¤ËÇÈŤ¬Ä¹¤¤¡¤Î㤨¤Ðº£²ó²æ¡¹¤¬Êó¹ð¤¹¤ë¤è¤¦¤Ê>10¦Ìm°è¤ÇFEL¤ò¸÷¸»¤È¤·¤¿Êó¹ðÎã¤È¤¤¤¦¤È³§Ìµ¤Ç¤¢¤ë¡£ ¡¡²æ¡¹¤Ï¡¤¥×¥é¥º¥Þ¥ß¥é¡¼¤òÍѤ¤¤Æ»þ´ÖŪ¤Ë¿ônsÄøÅ٤ˤޤÇÀÚ¤ê½Ð¤·¤¿KU-FEL¤Î11¦Ìm¥Ñ¥ë¥¹¤òGe´ðÈĤ˽¸¸÷¾È¼Í¤¹¤ë¤³¤È¤Ë¤è¤ê¡¤¼«¸Ê°ÌÁêÊÑÄ´¤òȯÀ¸¤µ¤»¡¤¥ì¡¼¥¶¡¼¥¹¥Ú¥¯¥È¥ë¤¬¤É¤ì¤À¤±¹­ÂÓ°è²½¤¹¤ë¤«¤òÄ´¤Ù¤¿¡£¥×¥é¥º¥Þ¥ß¥é¡¼¤òÍѤ¤¤¿Íýͳ¤Ï£²¤Ä¤¢¤ë¡££±¤Ä¤á¤ÎÍýͳ¤Ï¡¤»þ´Öʬ²òǽ¤ò¾å¤²¤ë¤¿¤á¡¤¸µ¤Ï2¦Ìs¤â¤¢¤ë¥Þ¥¯¥í¥Ñ¥ë¥¹¤Î»þ´ÖÉý¤ò¤Ê¤ë¤Ù¤¯Ã»¤¯¡Ê¸½¾õ¤Ç¤Ï5ns¡Ë¤¹¤ë¤¿¤á¤Ç¤¢¤ë¡££²¤Ä¤á¤ÎÍýͳ¤Ï¡¤2¦Ìs¤Î¥Þ¥¯¥í¥Ñ¥ë¥¹¤Î¤Þ¤Þ¤À¤ÈGe´ðÈĤ˽¸¸÷¾È¼Í¤·¤¿»þ¡¤Â»½ý¤¬µ¯¤³¤ë¤¿¤á¤Ç¤¢¤ë¡£¸½¾õ¤Ç¤Ï2ÇÜÄøÅ٤ޤǤι­ÂÓ°è²½¤¬³Îǧ¤Ç¤­¤Æ¤¤¤ë¡£
 
13:20 - 13:40 
MOOT08

Spatial beam quality measurement of KU-FEL
¡ûYu Qin, Heishun Zen, Xiaolong Wang, Takashi Nakajima, Toshiteru Kii, Hideaki Ohgaki (IAE, Kyoto Univ.)
 
Spatial quality of a laser beam is very important, since it determines how much the beam can be focused. Clearly it is very preferable to have a beam with high spatial quality to use an FEL for nonlinear optics which is actually our main playground. We have carried out the knife-edge measuremet of KU-FEL at 11 micron. For comparison we have also taken burn-patterns on acryl plates.
 
13:40 - 14:00 
MOOT09
p.212
[Slides]
Compact ERL ¼ç²Ã®ÉôĶÅÁƳ¶õƶ¥¯¥é¥¤¥ª¥â¥¸¥å¡¼¥ë¤Î¥Ï¥¤¥Ñ¥ï¡¼¥Æ¥¹¥È
High power test of main linac cryomodule for Compact ERL

¡ûºå°æ ´²»Ö¡¤Çß¿¹ ·òÀ®¡¤¹¾Ê Ï¹¨¡¤º´Æ£ ¾»»Ë¡ÊKEK¡Ë¡¤Âô¼ ¾¡¡Ê¸¶¸¦¡Ë¡¤¼Ä¹¾ ·û¼£¡¤¸Å²° µ®¾Ï¡ÊKEK¡Ë¡¤Cenni Enrico¡ÊÁí¸¦Âç¡Ë
¡ûHiroshi Sakai, Kensei Umemori, Kazuhiro Enami, Masato Sato (KEK), Masaru Sawamura (JAEA), Kenji Shinoe, Takaaki Furuya (KEK), Enrico Cenni (Sokendai)
 
KEK¤ÎERL³«È¯Åï¤Ç¤Ï¥³¥ó¥Ñ¥¯¥ÈERL¡ÊcERL¡Ë¤Î·úÀߤ¬¿Ê¤á¤é¤ì¤Æ¤¤¤ë¡£¼ç²Ã®´ïÉô¤Ïºòǯ¤Þ¤Ç¤ËcERLÍѤΣ²¶õƶÆþ¤ê¤Î¥¯¥é¥¤¥ª¥â¥¸¥å¡¼¥ë¤ËɬÍפÊ2Âæ¤Î1.3GHz¤Î9¥»¥ëĶÅÁƳ¶õƶ¡¢2Âæ¤ÎÆþÎÏ¥«¥×¥é¡¼¡¢3Âæ¤ÎHOMµÛ¼ýÂΡ¢2Âæ¤Î¥á¥«¥Ë¥«¥ë¥Á¥å¡¼¥Ê¡¼¤Ê¤É³Æ¥³¥ó¥Ý¡¼¥Í¥ó¥È¤ÎÀ½ºî¤·¡¢Æä˶õƶ¤ÎÍ×µáÃͤǤ¢¤ë15MV/m¤Ë¤ÆQ0¤¬£±¡ß10^10¤òĶ¤¨¤ëÃͤ¬Â¬Äꤵ¤ì¤¿¡£¤³¤ì¤é³ÆÍ×ÁǤÎÀ­Ç½É¾²Á¤ò¹Ô¤Ã¤¿¸å¡¢2012ǯ½©¤Þ¤Ç¡¢¥¯¥é¥¤¥ª¥â¥¸¥å¡¼¥ë¤ÎÀ½ºî¡¢ÁÈΩ¤ò¹Ô¤Ã¤¿¡£¶ñÂÎŪ¤Ë¤Ï¡¢£²Âæ¤ÎĶÅÁƳ¶õƶ¤ËHe¥¸¥ã¥±¥Ã¥ÈÍÏÀܸ塢¥¯¥ê¡¼¥ó¥ë¡¼¥àÆâ¤Ë¤ÆHOMµÛ¼ýÂΡ¢ÆþÎÏ¥«¥×¥é¡¼¤òÀܳ¡£¤½¤Î¸å¡¢¥Á¥å¡¼¥Ê¡¼Àܳ¡¢¼§µ¤¥·¡¼¥ë¥É¡¢Ç®¥·¡¼¥ë¥É¡¢He¥é¥¤¥ó¤Î¼èÉÕ¤ò¹Ô¤¤¡¢¥¯¥é¥¤¥ª¥â¥¸¥å¡¼¥ë¤È¤·¤Æ´°À®¸å¤Ë10·î¤ËcERL¤Î¥Ó¡¼¥à¥é¥¤¥ó¤Ë¥â¥¸¥å¡¼¥ë¤ÎÀßÃÖ¤ò¹Ô¤Ã¤¿¡£¤½¤Î¸å¡¢11·îËö¤Ë2K¤ÎÎäµÑ³«»Ï¡£2K¤Ç¤Î¥Á¥å¡¼¥Ê¡¼¤Ê¤É¤ÎÆ°ºî³Îǧ¤Ê¤É¤ò¹Ô¤Ã¤¿¸å¤Ë¡¢12·î¤Î£²½µ´Ö¤Ç¥Ï¥¤¥Ñ¥ï¡¼¥Æ¥¹¥È¤ò¹Ô¤Ã¤¿¡£2¶õƶ¤È¤âºÇÂçÅÅ°µ¤È¤·¤Æ16MV ¤ÎCW ²Ã®ÅÅ°µ°õ²Ã¤ò³Îǧ¤·¤¿¤¬¡¢¹âÅÅ°µ¤Ë¤Æ¡¢¶¯¤¤¥Õ¥£¡¼¥ë¥É¥¨¥ß¥Ã¥·¥ç¥ó¤¬´Ñ¬¤µ¤ì¤¿¡£¤Þ¤¿¡¢Ä¹´üŪ¤Ë¤Ï¡¢13.5-14MV ¤Î²Ã®ÅÅ°µ¤Ë¤Æ¡¢Î¾¶õƶ¤È¤â¤Ë1 »þ´Ö°Ê¾å¤Î»ý³²Äǽ¤Ç¤¢¤ë¤³¤È¤ò³Îǧ¤·¤¿¡£ËÜȯɽ¤Ç¤ÏcERL¼ç¶õƶ¥¯¥é¥¤¥ª¥â¥¸¥å¡¼¥ë¤Ç¤Î¥Ï¥¤¥Ñ¥ï¡¼»î¸³¤Ç¤Î¾ÜºÙ¤Ê·ë²Ì¤Èº£¸å¤Ë¤Ä¤¤¤Æ½Ò¤Ù¤ë¡£
 
14:00 - 14:20 
MOOT10
p.217
[Slides]
¹â¥¤¥ó¥Ô¡¼¥À¥ó¥¹¶â°¼§À­ÂÎ¥³¥¢¤Î¸¦µæ
Study of high impedance Magnetic Alloy core

¡ûÌî¼ ¾»¹°¡¤»³ËÜ ¾»ÏË¡¤ÅçÅÄ ÂÀÊ¿¡¤Åļ ʸɧ¡ÊÆüËܸ¶»ÒÎϸ¦µæ³«È¯µ¡¹½¡Ë¡¤Â翹 Àé¹­¡¤¸ÍÅÄ ¿®¡¤Ä¹Ã«Àî ¹ë»Ö¡¤¸¶ ·½¸ã¡¤µÈ°æ Àµ¿Í¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë¡¤¥·¥å¥Ê¡¼¥¼ ¥¢¥ì¥¯¥µ¥ó¥À¡¼¡ÊGSI¡Ë
¡ûMasahiro Nomura, Masanobu Yamamoto, Taihei Shimada, Fumihiko Tamura (JAEA), Chihiro Ohmori, Makoto Toda, Katsushi Hasegawa, Keigo Hara, Masahito Yoshii (KEK), Alexander Schnase (GSI)
 
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MOOT11
p.221
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Development of a High-Power Solid-State Switch for a Klystron Modulator

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Fumiyoshi Kamitsukasa, Akira Tokuchi, Keigo Kawase, Kazuya Furukawa, Ryukou Kato, Masaki Fujimoto, Hiroki Osumi, Masaki Yaguchi, Sousuke Funakoshi, Ryouta Tsutsumi, Shoji Suemine, ¡ûGoro Isoyama (ISIR, Osaka University)
 
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13:00 - 13:20 
MOOS07
p.226
SuperKEKB¥È¥ó¥Í¥ëÆâ²Ã®´ïÀ©¸æ¥Í¥Ã¥È¥ï¡¼¥¯ÌµÀþLAN¥·¥¹¥Æ¥à¤Î¹½ÃÛ
Construction of the SuperKEKB Control Network Wireless LAN System into the Accelerator Tunnel

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¡ûMasako Iwasaki, Masanori Satoh, Tatsuro Nakamura, Kazuro Furukawa, Katsuhiko Mikawa (KEK), Tomohiro Aoyama, Naoki Tanaka, Takuya Nakamura, Makoto Fujita, Kenzi Yoshii (Mitsubishi Electric System & Service)
 
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13:20 - 13:40 
MOOS08
p.230
[Slides]
Hadoop¡¦HBase¤òÍøÍѤ·¤¿J-PARC±¿Å¾¥Ç¡¼¥¿¥¢¡¼¥«¥¤¥Ó¥ó¥°¤Î¸½¾õ
Status of J-PARC operation data archiving using Hadoop and HBase

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Akinobu Yoshii, ¡ûNobuhiro Kikuzawa, Hiroshi Ikeda, Yuko Kato (JAEA)
 
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13:40 - 14:00 
MOOS09
p.235
[Slides]
MADOCA II ¥Ç¡¼¥¿¡¼¼ý½¸¤ÈÃßÀÑ¥·¥¹¥Æ¥à
MADOCA II data acquisition and storage system

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¡ûAkihiro Yamashita, Masahiro Kago, Hisanobu Sakai (JASRI)
 
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14:00 - 14:20 
MOOS10
p.239
[Slides]
MADOCA II-LabVIEW¥¤¥ó¥¿¡¼¥Õ¥§¥¤¥¹¤òÍѤ¤¤¿BPM¥Ç¡¼¥¿Æɤ߽Ф·¥·¥¹¥Æ¥à¤ÎºîÀ®
BPM data readout system using MADOCA II-LabVIEW interface

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¡ûYukito Furuakawa, Takahiro Matsumoto, Takahiro Fujita (SPring-8/JASRI)
 
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14:20 - 14:40 
MOOS11
p.242
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SPring-8 ÃßÀÑ¥ê¥ó¥°£²¼¡¸µÊü¼Í¸÷´³¾Ä·×¹âÅÙ²½¤Ë¸þ¤±¤¿MicroTCA²èÁü½èÍý¥·¥¹¥Æ¥à¤Î³«È¯
Development of MicroTCA-based Image Processing System for the Two-dimensional Synchrotron Radiation Interferometer at the SPring-8 storage ring

¡ûÀ¶Æ» ÌÀÃË¡¤¿¢ÅÄ ÁÒÏ»¡¤ÀµÌÚ ËþÇÁýÅÄ ¹äÀµ¡Ê¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûAkio Kiyomichi, Souroku Ueda, Mitsuhiro Masaki, Takemasa Masuda (JASRI/SPring-8)
 
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14:50 - 15:10 
MOOT12
p.246
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Ķ¹â¿¿¶õ²¼¤Ë¤ª¤±¤ë¥Á¥¿¥óºàÎÁ¤Î¸÷»É·ã¥¬¥¹Ã¦Î¥
Photo Stimulated Desorption of Titanium Material under ultra-high vacuum

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¡ûMasahiro Yamamoto, Tsukasa Miyajima, Yosuke Honda, Takashi Uchiyama (KEK), Hiroki Kurisu (Yamaguchi Univ.), Masanori Kobayashi (KEK)
 
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15:10 - 15:30 
MOOT13
p.249
[Slides]
compact ERL Æþ¼Í´ï¤Î¥³¥ß¥Ã¥·¥ç¥Ë¥ó¥°±¿Å¾
Commissioning operation of the compact ERL injector

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¡ûTsukasa Miyajima (KEK)
 
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15:30 - 15:50 
MOOT14
p.254
[Slides]
SACLA²Ã®´ï¹½À®µ¡´ï¤Î¹âÅÙ²½¾õ¶·
Improvements of the accelerator components at SACLA

¡ûÁ°ºä ÈæϤÏ¡ÊÍý¸¦ Êü¼Í¸÷²Ê³ØÁí¹ç¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûHirokazu Maesaka (RIKEN SPring-8 Center)
 
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15:50 - 16:10 
MOOT15
p.259
[Slides]
SACLA¤Ë¤ª¤±¤ë¶Ë»ç³°ÀþFELÀ°È÷·×²è
Construction project of an EUV-FEL in SACLA

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¡ûTakahiro Inagaki (RIKEN SPring-8 Center)
 
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MOOT16
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Saving Energy and Stabilization for Accelerator Power Supply

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p.272
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¡ûShota Fukuoka (University of Tsukuba), Hiroshi Matsumoto, Koji Ishii, Kuanjun Fan, Takuya Sugimoto (KEK)
 
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MOOS14
p.276
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¡ûHiromi Iinuma, Ken'ichi Sasaki, Hisayoshi Nakayama, Toshihiro Mimashi, Tsutomu Mibe (KEK), Mitsushi Abe (Hitachi)
 
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Basic design of a superconducting AVF cyclotron for proton therapy system

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¡ûHiroshi Tsutsui, Toshinori Mitsumoto, Yutaka Touchi, Takamasa Ueda, Kouichi Uno, Keiichi Watazawa, Satoru Yajima, Atsushi Hashimoto, Yukio Mikami, Hitoshi Mitsubori, Jun Yoshida, Kenta Yumoto (SHI)
 
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p.285
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¡ûMasakazu Yoshioka, Toshikazu Kurihara, Hitoshi Kobayashi, Hiroshi Matsumoto, Noriyuki Matsumoto (KEK), Hiroaki Kumada, Hideyuki Sakurai, Akira Matsumura (Tsukuba University), Toumei Sugano, Tatsuomi Hashirano (MHI), Hiroshi Nakashima, Takemi Nakamura (JAEA), Yoshiaki Kiyanagi, Fujio Hiraga (HOKKAIDO UNIV), Toshiyuki Ohba, Koji Okazaki (NAT)
 
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p.290
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¡ûMotoaki Sawabe (High Energy Accelerator Research Organization)
 
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p.294
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Development of gas charge stripper for intense heavy ion beam

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¡ûHiroshi Imao, Hiroki Okuno, Hironori Kuboki (RIKEN)
 
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Status of UVSOR Facility

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¡ûMasahiro Katoh, Taro Konomi, Jun-ichiro Yamazaki, Kenji Hayashi (UVSOR)
 
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Status of JAEA-Tokai Tandem Accelerator

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Construction of an 8MV tandem accelerator at Kyushu University - Present status report

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¡ûHidetomo Oguri (J-PARC center)
 
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¡ûSatoshi Hashimoto, Sayaka Chin, Kenji Kawata (LASTI, Univ. of Hyogo), Dazhi Li (Inst. of Laser Tech.), Sho Amano, Shuji Miyamoto (LASTI, Univ. of Hyogo)
 
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¡ûShuji Miyamoto, Yoshihiko Shoji, Satoshi Hashimoto, Sho Amano (LASTI, Univ. of Hyogo), Yasuyuki Minagawa, Yasuhiro Takemura, Yousuke Hamada, Tomohiro Matsushita, Haruo Ohkuma (JASRI)
 
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¡ûKen Katagiri, Kota Mizushima, Takuji Furukawa, Shinji Sato, Masayuki Muramatsu, Shinji Suzuki, Yoshiyuki Iwata, Toshiyuki Shirai, Eiichi Takada, Koji Noda (NIRS), Yuhsei Kageyama, Masahiro Kawashima, Izumi Kobayashi, Yoshinobu Sano (AEC)
 
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¡ûHeishun Zen, Motoharu Inukai, Yuusuke Tsugamura, Kensuke Okumura, Kenta Mishima, Torgasin Konstantin, Hani Negm, Mohamed Omer, Kyohei Yoshida, Kiyoshi Takami, Toshiteru Kii, Kai Masuda, Hideaki Ohgaki (IAE, Kyoto University)
 
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Status of KURRI-LINAC

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¡ûNaoya Abe, Toshiharu Takahashi, Takumi Kubota, Jun-ichi Hori, Koichi Sato, Masaaki Sakamoto (KURRI)
 
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Construction Status of the 6 MV Tandem Accelerator System at the University of Tsukuba

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¡ûKimikazu Sasa, Satoshi Ishii, Hiroyuki Oshima, Hiromi Kimura, Tsutomu Takahashi, Yoshikazu Tajima, Yoshihiro Yamato, Tetsuro Komatsubara, Daiichiro Sekiba, Eiji Kita (UTTAC, University of Tsukuba)
 
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¡ûSatoru Hojo, Ken Katagiri, Masao Nakao, Akinori Sugiura, Masayuki Muramatsu, Akira Noda, Kouji Noda (NIRS), Takanori Okada, Yuichi Takahashi, Akihito Komiyama, Toshihiro Honma (AEC)
 
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Status report of Linac/Laser Facility of University of Tokyo in 2013

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¡ûMitsuru Uesaka, Shinichi Yamashita, Toru Ueda, Katsuhiro Dobashi, Takeshi Fujiwara (University of Tokyo, Nuclear Professional School), Kazuhiro Tagi, Wenjing Wu, Changheng Liu (University of Tokyo, Department of Nuclear Engineering and Management), Joichi Kusano, Naoki Nakamura, Masashi Yamamoto, Eiji Tanabe (Accuthera Inc.)
 
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Status report of Hiroshima Synchrotron Radiation Center, Hiroshima University

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¡ûAtsushi Miyamoto, Kiminori Goto, Shigemi Sasaki, Masaki Taniguchi (HSRC)
 
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Present Status of the KEK Electron/Positron Injector Linac

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¡ûFusashi Miyahara (KEK)
 
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Current Status and Future Plans of FFAG Accelerators in KURRI

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¡ûYoshihiro Ishi, Yoshiharu Mori, Tomonori Uesugi, Yasutoshi Kuriyama, J-b Lagrange, Masaaki Sakamoto (KURRI), Emi Yamakawa (JAEA), Izumi Sakai, Mao Takabatake (Fukui Univ.)
 
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SSFP19
p.363
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Present Status of Gunma University Heavy Ion Medical Center

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¡ûHikaru Souda, Satoru Yamada, Tatsuaki Kanai, Ken Yusa, Mutsumi Tashiro, Hirofumi Shimada, Yoshiki Kubota, Akihiko Matsumura, Akito Saito, Kota Torikai, Tetsuya Fujimoto (GHMC), Eri Takeshita (Kanagawa Cancer Center)
 
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The Status of the Synchrotron of the Wakasa-wan Energy Research Center

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¡ûTetsuro Kurita, Satoshi Hatori, Yutaka Hayashi, Shinya Nagasaki, Shin Hiroto, Tetsuya Odagiri, Mark Shimada, Hiroaki Yamada, Kazuhiko Yamada, Fumiyoshi Yamaguchi, Masao Yodose, Masaya Shimizu (WERC)
 
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Status of the research activities using accelerators in Radiation Research Center, OPU

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¡ûShuichi Okuda, Ryoichi Taniguchi, Hiroyuki Miyamaru, Takao Kojima, Takashi Oka (Osaka Prefecture Univ.)
 
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Status of Electron Linac Operation and Application of Light Source at LEBRA in Nihon University

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¡ûKyoko Nogami, Ken Hayakawa, Toshinari Tanaka, Yasushi Hayakawa, Takeshi Sakai, Keisuke Nakao, Manabu Inagaki (LEBRA, Nihon University), Isamu Sato (ARISH, Nihon University), Atsushi Enomoto, Satoshi Ohsawa, Shigeki Fukuda, Tetsuo Shidara, Kazuro Furukawa, Shinichiro Michizono, Kimichika Tsuchiya, Mitsuhiro Yoshida (KEK Accelerator Laboratory), Shigeru Yamamoto (KEK Institute of Materials Structure Science)
 
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p.377
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ATF Status Report 2013

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¡ûNobuhiro Terunuma (KEK, ATF International Collaboration)
 
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p.381
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Present status of accelerators in Electron Light Science Centre, Tohoku University

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¡ûKenichi Nanbu, Shigeru Kashiwagi, Fujio Hinode, Yoshinobu Shibasaki, Toshiya Muto, Ikuro Nagasawa, Ken Takahashi, Hiroyuki Hama (Electron Light Science Centre, Tohoku University)
 
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Present status of accelerators of Aichi Synchrotron Radiation Center

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¡ûYoshifumi Takashima, Masahito Hosaka, Naoto Yamamoto (Nagoya University), Kiyoshi Takami (Osaka Prefecture University), Takumi Takano, Atsushi Mano, Hiroyuki Morimoto (Nagoya University), Masahiro Katoh (UVSOR), Yoichiro Hori (KEK), Shigeki Sasaki (JASRI/SPring-8), Shigeru Koda (SAGA-LS), Yoshikazu Takeda (AichiSR)
 
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Design of X-band Linac Neutron Source for nuclear data measurement

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¡ûKazuhiro Tagi, Katsuhiro Dobashi (Tokyo Univ.), Masashi Yamamoto (Accuthera Inc.), Takeshi Fujiwara, Mitsuru Uesaka (Tokyo Univ.)
 
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Testbench for Ultra-short Bunch Monitor at SPring-8

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¡ûTsutomu Taniuchi, Shinsuke Suzuki, Hideki Dewa, Hiromitsu Tomizawa, Akihiko Mizuno, Hirofumi Hanaki (JASRI)
 
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150-MeV ¥Þ¥¤¥¯¥í¥È¥í¥ó¤Ë¤ª¤±¤ë¥ì¡¼¥¶¡¼¡¦¥³¥ó¥×¥È¥ó»¶Í𥬥ó¥ÞÀþ¤ÎȯÀ¸
Generation of Laser Compton Scattered Gamma-rays from a 150-MeV Microtron

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¡ûRyoichi Hajima, Takehito Hayakawa, Toshiyuki Shizuma, Christopher T. Angell, Masaki Kando (JAEA), Izuru Daito, Hideaki Ohgaki (Kyoto U.)
 
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Irradiation experiments for space solar cells with low-energy electron beams

¡û±üÌî ÂÙ´õ¡¤±üÅÄ ½¤°ì¡¤¾®Åè ¿òÉס¤²¬ ¶¬¡ÊºåÉÜÂç¡Ë¡¤ÀîËÌ »Ëϯ¡¤º£Àô ½¼¡¤ççʬ ¹¨¾»¡Ê±§Ãè¹Ò¶õ¸¦µæ³«È¯µ¡¹½¡Ë
¡ûYasuki Okuno, Shuichi Okuda, Takao Kojima, Takashi Oka (OPU.), Shirou Kawakita, Mitsuru Imaizumi, Hiroaki Kusawake (JAXA)
 
±§ÃèÍÑÂÀÍÛÅÅÃӤȤ·¤Æ±§Ãè´Ä¶­¤Ë¤ª¤±¤ëÊü¼ÍÀþÂÑÀ­¤¬¹â¤¤²½¹çʪÂÀÍÛÅÅÃÓ¤¬ÍѤ¤¤é¤ì¤ë¡£¤³¤ÎÂÀÍÛÅÅÃÓ¤ÎÊü¼ÍÀþ¾È¼ÍÆÃÀ­¤Ë´Ø¤·¤Æ¿¤¯¤Î¸¦µæ¤¬¹Ô¤ï¤ì¤Æ¤ª¤ê¡¢ÍۻҾȼͤ䥨¥Í¥ë¥®¡¼1 MeV°Ê¾å¤ÎÅÅ»ÒÀþ¾È¼Í¤Ë¤è¤Ã¤ÆÂÀÍÛÅÅÃÓÆâ¤Ë´Þ¤Þ¤ì¤ë¸¶»Ò¤¬¤Ï¤¸¤­½Ð¤µ¤ì·ç´Ù¤¬À¸À®¤¹¤ë¤³¤È¤Ë¤è¤Ã¤ÆÂÀÍÛÅÅÃÓ¤ÎÀ­Ç½¤¬Îô²½¤¹¤ë¤³¤È¤¬Àè¹Ô¸¦µæ¤ÇÌÀ¤é¤«¤Ë¤Ê¤Ã¤Æ¤¤¤ë¡£¤·¤«¤·¤Ê¤¬¤é¡¢·ç´Ù¤Ë¤è¤ëÂÀÍÛÅÅÃÓ¤ÎÀ­Ç½Îô²½¤Î¥á¥«¥Ë¥º¥à¤Ï¤Þ¤À¾Ü¤·¤¯²òÌÀ¤µ¤ì¤Æ¤¤¤Ê¤¤¡£Ëܸ¦µæ¤Ç¤Ï¡¢·ç´Ù¤¹¤ë¸µÁǤòÁªÂòŪ¤ËÀ¸À®¤¹¤ë¤³¤È¤¬¤Ç¤­¤ë£±MeV°Ê²¼¤ÎÅÅ»ÒÀþ¤ÇÂÀÍÛÅÅÃÓÍѲ½¹çʪȾƳÂη뾽Ãæ¤ËÆÃÄê¤Î·ç´Ù¤òÀ¸À®¤·¡¢È¯ÅŸúΨ¤ÎÄã²¼¤ËÂФ¹¤ë·ç»¤Î±Æ¶Á¤òÄ´¤Ù¤¿¡£¾È¼Í»î¸³ÁõÃ֤Ȥ·¤Æ¡¢ÂçºåÉÜΩÂç³ØÊü¼ÍÀþ¸¦µæ¥»¥ó¥¿¡¼¤Î600 keV¥³¥Ã¥¯¥¯¥í¥Õ¥È¡¦¥¦¥©¥ë¥È¥óÅÅ»ÒÀþ²Ã®´ï¤òÍѤ¤¤¿¡£»îÎÁ¤ò¿¿¶õÃæ¤ËÃÖ¤­±ÕÂÎÃâÁÇÎäµÑ¤¬²Äǽ¤Ê¥·¥¹¥Æ¥à¤ò³«È¯¤·¡¢±§Ãè´Ä¶­¤òÌϤ·¤¿¾È¼Í¾ò·ï¤Ø¤ÈºÇŬ²½¤·¤¿¡£¤³¤Î¤è¤¦¤Ê¾ò·ï¤òËþ¤¿¤¹²Ã®´ï¥·¥¹¥Æ¥à¤Ï¡¢À¤³¦¤Ç¤â²è´üŪ¤Ê¤â¤Î¤Ç¤¢¤ë¡£250keV¤ÎÅÅ»ÒÀþ¤Î¾È¼Í»î¸³¤ò¹Ô¤Ã¤¿·ë²Ì¡¢ÅÅ»ÒÀþ¾È¼Í¤Ë¤è¤ëÆÃÀ­¤Î¸þ¾å¤Ê¤É¤Î¸½¾Ý¤¬¿·¤¿¤Ëǧ¤á¤é¤ì¤¿¡£¤Þ¤¿ÅŻҥӡ¼¥à¤ò¼§¾ì¤ÇÊиþ¤·¤Ê¤¤¾ì¹ç¡¢ÍýÏÀÃͤè¤ê¤âÂÀÍÛÅÅÃÓ¤ÎÎô²½¤¬Â礭¤¯¤Ê¤Ã¤¿¡£¤³¤ì¤Ï¥Ó¡¼¥àÆâ¤Ë¤ï¤º¤«¤Ë´Þ¤Þ¤ì¤ë¥¤¥ª¥ó¤Ë¤è¤ë±Æ¶Á¤È¹Í¤¨¤é¤ì¤ë¡£¤Þ¤¿¾È¼Í¤Ëȼ¤¦È¾Æ³ÂÎɽÌ̤ˤª¤±¤ëÉÔ½ãʪ¤ÎÉÕÃ夬´Ñ¬¤µ¤ì¤¿¡£¸½ºß¤³¤ì¤é¤Î¸½¾Ý¤Î¸¶°ø¤ò²òÌÀ¤·¡¢²Ã®´ï¤Î²þÎÉÊýË¡¤Ë¤Ä¤¤¤Æ¸¡Æ¤¤·¤Æ¤¤¤ë¡£
 
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Linac¤Î¥Ñ¥ë¥¹¥Ù¥ó¥Ç¥£¥ó¥°¥Þ¥°¥Í¥Ã¥ÈÉÕ¶á¤Î¥Ó¡¼¥à¥í¥¹Ä´ºº
Beam loss investigation near the pulse bending magnet of KEKB Injector Linac

¡ûÌðÌî ´î¼£¡¤Æ»±à ¿¿°ìϺ¡¤Ê¡ÅÄ Ìмù¡¤º´ÇÈ ½ÓºÈ¡Ê¹â¥¨¥Í¸¦¡Ë
¡ûYoshiharu Yano, Shinichiro Michizono, Shigeki Fukuda, Toshiya Sanami (KEK)
 
Linac delivered the electron of 8GeV to HER-KEKB, and delivered the positron of 3.5 GeV to LER-KEKB. Furthermore, the electron of 2.5 GeV is supplied to PF and the electron of 3 GeV is supplied to PF-AR. Linac should be operated to deliver the beam to HER, LER, and PF every 20msec. The pulse magnet (BP_58_1) installed downstream of Linac control the beam distribution. The measured data of BPM show that the charge quantity of PF beam is decreasing before and behind this magnet. Investigation of the beam loss using an optical fiber has shown that the beam loss has occurred in the straight section of the BP_58_1 lower stream. We have investigated the beam loss of the inside magnet, and the magnet circumference. In the present operating condition, we found that the beam loss is very large in the branch duct of the magnet. The dose of radiation under operation of a place with many beam losses was measured in TLD batch, and it compared with the optical fiber loss monitor's data. A lot of beam loss had occurred near the branch duct. The duct of PF beam line of about 100 m of lower streams of a pulse bending magnet and the residual radioactivity of the flange were measured.
 
13:00 - 15:00 
SAP007
p.406
SPring-8ÃßÀÑ¥ê¥ó¥°¤Ø¤Î¶Ëû¥Ð¥ó¥Á¥Ó¡¼¥à¤ÎÍ¢Á÷
Transport of Ultrashort Bunch to the Storage ring in SPring-8

¡û¿¼¸« ·ò»Ê¡¤ÂçÀÐ ¿¿Ì顤Âç·§ ½ÕÉסʸø±×ºâÃÄË¡¿Í ¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë¡¤ÂçÃÝ Íº¼¡¡ÊÆÈΩ¹ÔÀ¯Ë¡¿Í Íý²½³Ø¸¦µæ½ê¡Ë¡¤²¬°Â ͺ°ì¡¤¾®Ï© Àµ½ã¡¤Áá²µ½÷ ¸÷°ì¡Ê¸ø±×ºâÃÄË¡¿Í ¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë¡¤ÅÏÀî Ϲ¸¡¤¸¶ Å°¡ÊÆÈΩ¹ÔÀ¯Ë¡¿Í Íý²½³Ø¸¦µæ½ê¡Ë¡¤Æ£ÅÄ µ®¹°¡¤ËþÅÄ »Ë¿¥¡¤ÅÏÉô µ®¹¨¡Ê¸ø±×ºâÃÄË¡¿Í ¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûKenji Fukami, Masaya Ooishi, Haruo Ohkuma (JASRI), Yuji Ohtake (RIKEN), Yuich Okayasu, Masazumi Shoji, Koichi Soutome (JASRI), Kazuaki Togawa, Toru Hara (RIKEN), Takahiro Fujita, Chikaori Mitsuda, Takahiro Watanabe (JASRI)
 
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CSRµÕ¥³¥ó¥×¥È¥ó»¶Íð¤Ë¤è¤ëILCÊжËÍÛÅŻҸ»¤Î¤¿¤á¤Î¥¬¥ó¥ÞÀþÀ¸À®
Geneeration of polaserized gamma-ray based on CSR-inverse Compton scattering for ILC positron source
¡ûÅçÅÄ ÈþÈÁ¡Ê¹â¥¨¥Í¸¦¡Ë¡¤Tecimer Mufit¡Ê¥Ï¥ï¥¤Âç³Ø¡Ë¡¤±©Åç ÎÉ°ì¡Ê¸¶»ÒÎϵ¡¹½¡Ë¡¤²£Ã« ³¾¡Ê¹â¥¨¥Í¸¦¡Ë
¡ûMiho Shimada (KEK), Mufit Tecimer (Univ. Hawaii), Ryoichi Hajima (JAEA), Kaoru Yokoya (KEK)
 
±ßÊи÷ÍÛÅŻҸ»¤Î¤¿¤á¤Ë¡¢10MeV°Ê¾å¤ÎÊж˥¬¥ó¥ÞÀþ¸»¤Î³«È¯¤¬³Æ»ÜÀߤǹԤï¤ì¤Æ¤¤¤ë¡£150GeVÅŻҥХó¥Á¤ª¤è¤Ó200mĶÅÁƳ¥¢¥ó¥¸¥å¥ì¡¼¥¿¤òÍѤ¤¤ëÊýË¡¤¬¸½ºß¤Î¥Ù¡¼¥¹¥é¥¤¥ó¤È¤Ê¤Ã¤Æ¤¤¤ë¤¬¡¢¤è¤ê¾®¤µ¤¤ÅŻҥ¨¥Í¥ë¥®¡¼¤ÇµÕ¥³¥ó¥×¥È¥ó»¶Íð¤ò¹Ô¤¦ÊýË¡¤âÄó°Æ¤µ¤ì¤Æ¤¤¤ë¡£ ËÜȯɽ¤Ç¤Ï¡¢ÃæÀÖ³°ÀþÎΰè¤ÎCSR¤ò¥Ù¡¼¥¹¤È¤·¤¿µÕ¥³¥ó¥×¥È¥ó»¶Íð¤Ë¤è¤ë¥¬¥ó¥ÞÀþÀ¸À®¤Ë¤Ä¤¤¤ÆÄó°Æ¤¹¤ë¡£ÊиþÅż§ÀФÇÊü¼Í¤·¤¿CSR¤Ïoptical cavity¤ËÃßÀѤµ¤ì¡¢¸å¤Ë³¤¯¥·¥ç¡¼¥È¥Ñ¥ë¥¹¤ÎÅŻҥХó¥Á¤ÈÁê¸ßºîÍѤ¹¤ë¤³¤È¤Ë¤è¤Ã¤Æ¤½¤Î¸÷¤Î¶¯ÅÙ¤òÁý¤¹¡£Optical cavity¤Ï4Ëç¤â¤·¤¯¤Ï¤½¤ì°Ê¾å¤Î¥ß¥é¡¼¤Ç¹½À®¤·¡¢Æ±¤¸cavityÆâ¤ÇµÕ¥³¥ó¥×¥È¥ó»¶Íð¤ò¹Ô¤Ã¤ÆÊж˥¬¥ó¥ÞÀþ¤òÀ¸À®¤¹¤ë¡£ILC¤ÇɬÍפȤµ¤ì¤ë¥Õ¥é¥Ã¥¯¥¹¤òËþ¤¿¤¹¤¿¤á¤Ë¡¢CW¤â¤·¤¯¤Ï½àCW±¿Å¾¤òÁÛÄꤷ¤Æ¤ª¤ê¡¢¥¨¥Í¥ë¥®¡¼²ó¼ý·¿Àþ·Á²Ã®´ï(ERL)¤ò»ÈÍѤ·¤¿¾ì¹ç¤Ë¤Ä¤¤¤Æ¸¡Æ¤¤ò¹Ô¤Ã¤¿¡£
 
13:00 - 15:00 
SAP009
p.410
KEK-STF¤Ë¤ª¤±¤ë¹â¥¢¥¹¥Ú¥¯¥ÈÈæÅŻҥӡ¼¥à¤ÎÀ¸À®
High Aspect Ratio Beam Electron Beam Generation in KEK-STF

¡û·ªÌÚ ²íÉסʹ­ÅçÂ籡Àèü¡Ë¡¤ÁáÌî ¿Î»Ê¡Ê¹â¥¨¥Í¸¦²Ã®´ï¡Ë¡¤ÇðÌÚ ÌСÊÅìËÌÂçÅŻҸ÷Íý¥»¡Ë
¡ûMasao Kuriki (AdSM, Hiroshima U.), Hitoshi Hayano (Acc. lab., KEK), Shigeru Kashiwagi (REPS, Tohoku U. )
 
¥Ó¡¼¥àÎϳؤˤª¤±¤ë°ÌÁê¶õ´ÖÀ©¸æ¤Ï¡¢³Æ¼«Í³ÅÙ´Ö¤ò·ë¹ç¤¹¤ëŬÅö¤Ê¥Ó¡¼¥à¸÷³ØÁÇ»ÒÅù¤Ë¤è¤êγ»ÒʬÉÛ¤òÊѲ½¤µ¤»¡¢¥Ó¡¼¥à¤ÎÍøÍÑ·ÁÂ֤˺ÇŬ¤Ê¥Ó¡¼¥à·Á¾õ¤òÄ󶡤¹¤ë¡£ËÜȯɽ¤Ç¤Ï¥½¥ì¥Î¥¤¥É¼§¾ìÃæ¤ÇȯÀ¸¤·¤¿ÅŻҥӡ¼¥à¤Ë¤è¤ëXYÊý¸þ¤Ë¹â¤¤¥¢¥¹¥Ú¥¯¥ÈÈæ¤ò»ý¤Ä¥Ó¡¼¥à¤ÎÀ¸À®¤Ë¤Ä¤¤¤Æ¸¡Æ¤¤¹¤ë¡£¹ñºÝ¥ê¥Ë¥¢¥³¥é¥¤¥À¡¼·×²è¤Ç¤Ï¾×ÆÍÅÀ¤Ë¤ª¤±¤ë¥Ó¡¼¥à¡¦¥Ó¡¼¥à¸ú²Ì¤òÍÞÀ©¤¹¤ë¤¿¤á¤Ë¤ª¤è¤½¥¢¥¹¥Ú¥¯¥ÈÈæ¤Ë¤·¤Æ100ÄøÅÙ¤Î٨ʿ¥Ó¡¼¥à¤òÀ¸À®¤¹¤ë¡£¸½ºß¤ÎILC¤ÎÀ߷פǤϤ³¤Î¤è¤¦¤Ê ¥Ó¡¼¥à¤ò¼þŤˤ·¤Æ3km¤ÎÃßÀÑ¥ê¥ó¥°¤Ë¤ª¤±¤ëÊü¼Í¸º¿ê¤òÍøÍѤ·¤ÆÀ¸À®¤¹¤ë¡£Ëܸ¦µæ¤Ç¤Ï²óž¤¹¤ë¤è¤¦¤ÊºÂɸ-±¿Æ°ÎÌÁê´Ø¤òÍ­¤·¤¿¥Þ¥°¥Í¥¿¥¤¥¼¡¼¥·¥ç¥ó¥Ó¡¼¥à¤òÀ¸À®¤·¡¢skew-Q¼§¾ì¤Ë¤è¤êÁê´Ø¤òÂǤÁ¾Ã¤¹¤µ¤¤¤Ë°ìÊý¤Î¥¨¥ß¥Ã¥¿¥ó¥¹¤ò¶Ë¾®²½¤¹¤ë¤³¤È¤ÇÈóÂоΥӡ¼¥à¤òÀ¸À®¤¹¤ë¤³¤È¤òÌܻؤ¹¡£KEK¤ÎSTF(Super-conductingTest Facility)¤ËÀßÃÖ¤µ¤ì¤¿1.3GHz L-band RF ÅŻҽƤˤè¤ë¥Þ¥°¥Í¥¿¥¤¥¼¡¼¥·¥ç ¥ó¥Ó¡¼¥à¤ÎÀ¸À®¤ª¤è¤Ó¤½¤Î¼Â¸³¤Ë¤Ä¤¤¤Æ¡¢¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¤Ë¤è¤ë¸¡Æ¤·ë²Ì¤òÊó¹ð¤¹¤ë¡£¤Þ¤¿¡¢ËÜÊýË¡¤Ë¤è¤ëÃßÀÑ¥ê¥ó¥°¤òÍѤ¤¤Ê¤¤ILC¤ÎÀ߷װƤˤĤ¤¤Æ¸¡Æ¤¤¹¤ë¡£
 
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SAP010
p.414
L¥Ð¥ó¥É¥Õ¥©¥È¥«¥½¡¼¥ÉRFÅŻҽƤγ«È¯¡ÊVII)
Development of L-band RF Gun (VII)

¡ûÀîÀ¥ ·¼¸ç¡¤²ÃÆ£ ζ¹¥¡¤Æ£ËÜ Õòµ±¡¤¾å»Ê ʸÁ±¡¤Âç³Ñ ´²¼ù¡¤Ìð¸ý ²íµ®¡¤Á¥±Û ÁÔμ¡¤Äé μÂÀ¡¤°ë»³ ¸çϯ¡ÊºåÂ绺¸¦¡Ë¡¤ÅÏîµ ¸¬¡¤ÁÒËÜ °½²Â¡¤ÁáÌî ¿Î»Ê¡¤±ºÀî ½ç¼£¡¤¹âÉÙ ½ÓÏ¡ʹ⥨¸¦¡Ë¡¤ÈÓÅç ËÌÅÍ¡¤·ªÌÚ ²íÉסʹ­Âç¡Ë¡¤ÇðÌÚ ÌСÊÅìËÌÂçÅŻҸ÷¡Ë
¡ûKeigo Kawase, Ryukou Kato, Masaki Fujimoto, Fumiyoshi Kamitsukasa, Hiroki Osumi, Masaki Yaguchi, Sousuke Funakoshi, Ryouta Tsutsumi, Goro Isoyama (ISIR, Osaka Univ. ), Ken Watanabe, Ayaka Kuramoto, Hitoshi Hayano, Junji Urakawa, Toshikazu Takatomi (KEK), Hokuto Iijima, Masao Kuriki (Hiroshima Univ. ), Shigeru Kashiwagi (ELPH, Tohoku Univ.)
 
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p.417
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Improvement of beam lifetime by additional sextupole families at NewSUBARU

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¡ûYasuyuki Minagawa, Yasuhiro Takemura (JASRI), Yoshihiko Shoji (LASTI, Univ. of Hyogo)
 
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Analysis and Measurement of Focusing Effects in a Traveling Wave Linear Accelerator

¡ûÁ°ºä ÈæϤÏ¡¤°ÂÀÑ Î´Éס¤Øª¶¿ Çîʸ¡¤¸¶ Å°¡¤°ð³À δ¹¨¡¤Ý¯°æ 乬¡¤ÅÏÀî Ϲ¸¡¤ÅÄÃæ ¶Ñ¡¤ÂçÃÝ Íº¼¡¡ÊÍý¸¦ Êü¼Í¸÷²Ê³ØÁí¹ç¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûHirokazu Maesaka, Takao Asaka, Hiroyasu Ego, Toru Hara, Takahiro Inagaki, Tatsuyuki Sakurai, Kazuaki Togawa, Hitoshi Tanaka, Yuji Otake (RIKEN SPring-8 Center)
 
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Status report of the operation of the RIBF ring cyclotrons

¾®»³ μ¡¤Ê¡Âô À»»ù¡¤ßÀÃç À¿¡¤ÀÐÀî À¹¡¤¾®¹â ¹¯¾È¡¤¾®ÎÓ À¶»Ö¡¤Ãç¼ Éð»Ö¡¤À¾ÅÄ Ì­¡¤À¾Â¼ À¿¡¤¼ÆÅÄ ½çæÆ¡¤·îµï ·û½Ó¡¤ÌðÉÚ °ì¿µ¡Ê½»½Å²Ã®´ï¥µ¡¼¥Ó¥¹¡Ë¡¤¡ûºäËÜ À®É§¡¤ÃÊÄÍ Ãλ֡¤Æ£´¬ Àµ¼ù¡¤Ê¡À¾ Ī¾°¡¤Æ£Æì ²í¡¤Ä¹Ã«Éô ͵ͺ¡¤ÆüÊë ¾Í±Ñ¡¤ÃÓÂô ±ÑÆ󡤺£Èø ¹À»Î¡¤²ÃÀ¥ ¾»Ç·¡¤±Æ»³ Àµ¡¤¾å³À³° ½¤°ì¡¤ÌÚ»û Àµ·û¡¤·§Ã« ·Ë»Ò¡¤µ×ÊÝÌÚ ¹À¸ù¡¤¹þ»³ Èþºé¡¤¿¿²È Éð»Î¡¤Ä¹À¥ À¿¡¤ÃæÀî ¹§½¨¡¤Ãæ¼ ¿Î²»¡¤ÂçÀ¾ ½ã°ì¡¤±üÌî ¹­¼ù¡¤Âç´Ø ϵ®¡¤¿ÜÅÄ ·ò»Ì¡¤Æ⻳ ¶Ç¿Î¡¤ÅÏîµ ´Ä¡¤ÅÏîµ Íµ¡¤»³ÅÄ °ìÀ®¡¤»³ß· ½¨¹Ô¡ÊÍý¸¦¿Î²Ê¥»¥ó¥¿¡¼¡Ë
Ryo Koyama, Seiji Fukuzawa, Makoto Hamanaka, Shigeru Ishikawa, Yasuteru Kotaka, Kiyoshi Kobayashi, Takeshi Nakamura, Minoru Nishida, Makoto Nishimura, Junsho Shibata, Noritoshi Tsukiori, Kazuyoshi Yadomi (SHI ACCELERATOR SERVICE Ltd.), ¡ûNaruhiko Sakamoto, Tomoyuki Dantsuka, Masaki Fujimaki, Nobuhisa Fukunishi, Tadashi Fujinawa, Hiroo Hasebe, Yoshihide Higurashi, Eiji Ikezawa, Hiroshi Imao, Masayuki Kase, Tadashi Kageyama, Osamu Kamigaito, Masanori Kidera, Keiko Kumagai, Hironori Kuboki, Misaki Komiyama, Takeshi Maie, Makoto Nagase, Takahide Nakagawa, Makoto Nakamura, Jun-ichi Ohnishi, Hiroki Okuno, Kazutaka Ozeki, Kenji Suda, Akito Uchiyama, Tamaki Watanabe, Yutaka Watanabe, Kazunari Yamada, Hideyuki Yamasawa (NISHINA CENTER, RIKEN)
 
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Present Status of the RCNP Cyclotron Facility

¡ûȪÃæ µÈ¼£¡¤Ê¡ÅÄ ¸÷¹¨¡¤°ÍÅÄ Å¯É§¡¤ºØÆ£ ¹âÎ桤¿¢ÅÄ ¹À»Ë¡¤Åļ ¿Î»Ö¡¤±Ê»³ ·¼°ì¡¤°ÂÅÄ Íµ²ð¡¤¿¹¿® ½ÓÊ¿¡¤³ùÁÒ ·ÃÂÀ¡ÊÂçºåÂç³Ø³ËʪÍý¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûKichiji Hatanaka, Mitsuhiro Fukuda, Tetsuhiko Yorita, Takane Saito, Hiroshi Ueda, Hitoshi Tamura,, Keiichi Nagayama, Yuusuke Yasuda, Shunpei Morinobu, Keita Kamakura (RCNP, Osaka University)
 
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Design Study for Improvement of irradiation field at NIRS-930 Cyclotron

¡û¿ù±º ¾´Â§¡¤ËÌÛê ¸ç¡¤ÊÒ¶Í ·ò¡¤ÃæÈø À¯Éס¤ÌîÅÄ ¾Ï¡¤Ë̼ ¾°¡ÊÊü°å¸¦¡Ë¡¤²¬ÅÄ ¹âŵ¡¤üⶶ ͦ°ì¡¤¹þ»³ ÌÀ¿Î¡¤ËÜ´Ö Ôè×¢¡Ê²Ã®´ï¥¨¥ó¥¸¥Ë¥¢¥ê¥ó¥°¡Ë¡¤ÌîÅÄ ¹ÌÆó¡ÊÊü°å¸¦¡Ë
¡ûAkinori Sugiura, Satoru Hojo, Ken Katagiri, Masao Nakao, Akira Noda, Hisashi Kitamura (nirs), Takanori Okada, Yuichi Takahasi, Akihito Komiyama, Toshihiro Honma (AEC), Koji Noda (nirs)
 
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J-PARC¥ê¥Ë¥¢¥Ã¥¯¤Î¥¨¥Í¥ë¥®¡¼Áý¶¯¤Ë¸þ¤±¤¿ACS¶õƶ¤ÎÂçÅÅÎϻºÆ³«
Resuming of ACS high-power test for J-PARC linac energy upgrade

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¡ûJun Tamura, Hiroyuki Ao, Yasuo Nemoto (JAEA), Hiroyuki Asano (NAT), Takahiro Suzuki (Mitsubishi Electric System & Service Co.,Ltd)
 
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Challenge for the High Temperature Superconducting Injector Cyclotron

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p.527
BNL¤Ë¤ª¤±¤ëRHIC¡¢NSRLÍѥ졼¥¶¡¼¥¤¥ª¥ó¸»¤Î¥¨¥ß¥Ã¥¿¥ó¥¹Â¬Äê
Emittance from laser ion source for RHIC and NSRL in BNL

¡û´Øº¬ ·Ã¡¤ß§Ã« 㧡¤ÎÓºê µ¬Â÷¡ÊÅ칩Âç¡Ë¡¤²¬Â¼ ¾»¹¨¡Ê¥Ö¥ë¥Ã¥¯¥Ø¥Ö¥ó¹ñΩ¸¦µæ½ê¡Ë
¡ûMegumi Sekine, Tatsunori Shibuya, Noriyosu Hayashizaki (Tokyo.Tech), Masahiro Okamura (BNL)
 
Êƹñ¥Ö¥ë¥Ã¥¯¥Ø¥Ö¥ó¹ñΩ¸¦µæ½ê¤ÎÅŻҥӡ¼¥à¥¤¥ª¥ó¸»¡ÊEBIS¡Ë¤ÏRelativistic Heavy Ion Collider¡ÊRHIC¡Ë¤ÈNASA Space Radiation Laboratory¡ÊNSRL¡ËÍѤνť¤¥ª¥ó¸»¤Ç¤¢¤ë¡£¥ì¡¼¥¶¡¼¥¤¥ª¥ó¸»¡ÊLIS¡Ë¤Ï¡¢Ä㥨¥ß¥Ã¥¿¥ó¥¹¥Ó¡¼¥à¤òÀ¸À®¤Ç¤­¡¢1É䴤Ȥ˳˼ï¤ÎÀÚ¤êÂؤ¨¤¬²Äǽ¤Ç¤¢¤ë¤¿¤á¡¢EBIS¤Ø¤Î£±²Á¥¤¥ª¥ó¤ÎÆþ¼Í´ï¤È¤·¤ÆºÎÍѤµ¤ì¤¿¡£RHIC¤Ø¤ÏAu¤ÈCu¤ò¡¢NSRL¤Ø¤Ï±§ÃèÀþ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¼Â¸³¤Î¤¿¤áC, Al, Si, Cr, Fe, Cu, TaÅù¤ò¶¡µë¤¹¤ë¡£ LIS¤«¤é¤Î¥¤¥ª¥óÅÅή¤òÊÝ»ý¤¹¤ë¤¿¤á¡¢¥À¥Ö¥ë¥Ñ¥ë¥¹¥ì¡¼¥¶¡¼¤ò»ÈÍѤ·¡¢¤µ¤é¤Ë¥×¥é¥º¥Þ¥É¥ê¥Õ¥È¶è´Ö¤Ë¤ª¤¤¤Æ¤Ï¥½¥ì¥Î¥¤¥É¤òÍѤ¤¤¿¥·¥¹¥Æ¥à¤ò´°À®¤µ¤»¤¿¡£EBIS¤ÎÆþ¼Í°ÌÃ֤ˤª¤±¤ëÅÅήÃͤȥ¨¥ß¥Ã¥¿¥ó¥¹¤ò¡¢¥Õ¥¡¥é¥Ç¡¼¥«¥Ã¥×¤È¥Ú¥Ã¥Ñ¡¼¥Ý¥Ã¥È¤òÍѤ¤¤Æ¤½¤ì¤¾¤ì¬Äꤷ¤¿·ë²Ì¡¢EBISÍÑÆþ¼Í´ï¤È¤·¤Æ¤ÎÍ×µá¤ò½½Ê¬Ëþ¤¿¤¹¤³¤È¤ËÀ®¸ù¤·¤¿¡£
 
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SAP041
p.530
Íý¸¦28 GHzĶÅÁƳECR¥¤¥ª¥ó¸»¤«¤é¤ÎXÀþ¬Äê
Measurement of X-ray from RIKEN 28 GHz Superconducting ECR ion source

¡ûÂç´Ø ϵ®¡¤ÆüÊë ¾Í±Ñ¡¤ÂçÀ¾ ½ã°ì¡¤ÃæÀî ¹§½¨¡ÊÍý¸¦¿Î²Ê¥»¥ó¥¿¡¼¡Ë
¡ûKazutaka Ozeki, Yoshihide Higurashi, Jun-ichi Ohnishi, Takahide Nakagawa (Nishina Center, RIKEN)
 
¿¤¯¤Î¼Â¸³»ÜÀߤˤª¤¤¤Æ¡¢Â綯ÅÙ¤ÎRI¥Ó¡¼¥à¤ò¶¡µë¤¹¤ë¤¿¤á¤Î³°Éô¥¤¥ª¥ó¸»¤È¤·¤Æ¡¢Ä¶ÅÁƳECR¥¤¥ª¥ó¸»(SC-ECRIS)¤¬À½ºî¤µ¤ì¤Æ¤¤¤ë¡£¶áǯ¡¢¥¤¥ª¥ó¸»Æâ¤Î¥×¥é¥º¥Þ¤«¤éÊü¼Í¤µ¤ì¤ëÀ©Æ°XÀþ¤¬SC-ECRIS¤Î±ÕÂΥإꥦ¥à¤ËÇ®Éé²Ù¤òÍ¿¤¨¤ë¤³¤È¤¬Êó¹ð¤µ¤ì¤¿¡£¤³¤Î»ö¼Â¤Ï¡¢¥¤¥ª¥ó¸»Æâ¤ËƳÆþ¤Ç¤­¤ëRF¥Ñ¥ï¡¼¡¢¤Ò¤¤¤Æ¤Ï¥Ó¡¼¥à¶¯ÅÙ¤¬ÎäÅൡ¤ÎÎäµÑǽÎϤˤè¤Ã¤ÆÀ©¸Â¤µ¤ì¤¦¤ë¤³¤È¤ò¼¨º¶¤¹¤ë¡£ ¤³¤ÎÌäÂêÅÀ¤Î°ì¤Ä¤Î²óÈòÊýË¡¤È¤·¤Æ¡¢¥¤¥ª¥ó¸»¤Î¥Ñ¥é¥á¡¼¥¿¡¼Ä´À°¤Ë¤è¤Ã¤ÆÀ©Æ°XÀþ¤ÎÊü¼ÍÎ̤äÊü¼ÍÊý¸þ¤òÄ´À᤹¤ë¤³¤È¤¬µó¤²¤é¤ì¤ë¡£Íý¸¦28 GHz SC-ECRIS¤Ë¤ª¤¤¤Æ¡¢NaI¥·¥ó¥Á¥ì¡¼¥·¥ç¥ó¥«¥¦¥ó¥¿¡¼¤ò¥¤¥ª¥ó¸»¤Î²¼Î®¼´Êý¸þ¤ËÀßÃÖ¤·¡¢¥ß¥é¡¼¼§¾ì¤Î·Á¾õ¤òÍÍ¡¹¤ËÊѲ½¤µ¤»¤Ê¤¬¤é124Xe20+¤Î¥Ó¡¼¥à¶¯Å٤ʤé¤Ó¤ËÀ©Æ°XÀþ¤Î¬Äê¤ò¹Ô¤Ã¤¿¡£MaxwellʬÉÛ¤ò²¾Äꤷ¤Æ¡¢ÆÀ¤é¤ì¤¿¥¨¥Í¥ë¥®¡¼¥¹¥Ú¥¯¥È¥ë¤è¤êÀ©Æ°XÀþ¤Î¥¹¥Ú¥¯¥È¥ë²¹ÅÙ¤ª¤è¤ÓÊü¼ÍÎÌ(·×¿ôΨ)¤òƳ½Ð¤·¤¿¡£¤½¤Î·ë²Ì¡¢Æ°·ÂÊý¸þ¤Î¼§¾ì¤ò¶¯¤¯¤¹¤ë¤³¤È¤Ë¤è¤Ã¤Æ¡¢¥Ó¡¼¥à¶¯ÅÙ¤¬ÁýÂ礹¤ë¤È¤È¤â¤ËÀ©Æ°XÀþ¤ÎÊü¼ÍÊý¸þ¤¬¼´Êý¸þ¤Ë½¸Ã椹¤ë¤³¤È¤¬Ê¬¤«¤Ã¤¿¡£ ËÜȯɽ¤Ç¤Ï¡¢Â¬Äê·ë²Ì¤Ë¤Ä¤¤¤ÆÊó¹ð¤·¡¢À©Æ°XÀþ¤Ë¤è¤ë±ÕÂΥإꥦ¥à¤Ø¤ÎÇ®Éé²Ù¤òÍÞ¤¨¤ëÊýºö¤Ë¤Ä¤¤¤Æ¹Í»¡¤¹¤ë¡£
 
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SAP042
p.533
RCNP¤Ë¤ª¤±¤ë¥¤¥ª¥ó¸»°ú½Ð¤··ÏµÚ¤ÓÍ¢Á÷·Ï¤Î²þÎɤȽť¤¥ª¥ó¥Ó¡¼¥à³«È¯
Developments of Heavy Ion Beam by Modification of Extraction and Transport System of Ion Source at RCNP

¡û°ÍÅÄ Å¯É§¡¤ÈªÃæ µÈ¼£¡¤Ê¡ÅÄ ¸÷¹¨¡¤¿¢ÅÄ ¹À»Ë¡¤¿¹¿® ½ÓÊ¿¡¤Åļ ¿Î»Ö¡¤°ÂÅÄ Íµ²ð¡¤³ùÁÒ ·ÃÂÀ¡ÊºåÂç£Ò£Ã£Î£Ð¡Ë
¡ûTetsuhiko Yorita, Kichiji Hatanaka, Mitsuhiro Fukuda, Hiroshi Ueda, Shunpei Morinobu, Hitoshi Tamura, Yuusuke Yasuda, Keita Kamakura (RCNP, Osaka Univ.)
 
ÂçºåÂç³Ø³ËʪÍý¸¦µæ¥»¥ó¥¿¡¼¡ÊRCNP¡Ë¤Ç¤Ï¡¢AVF ¥µ¥¤¥¯¥í¥È¥í¥óµÚ¤Ó¥ê¥ó¥°¥µ¥¤¥¯¥í¥È¥í¥ó¤Ç¤Î²Ã®¥Ó¡¼¥à¤Î¶¯ÅÙ¤ÎÁý¶¯µÚ¤Ó²Ã®¥¤¥ª¥ó¤Î¿ÍͲ½¤òÌܻؤ·¡¢18GHz ĶÅÁƳECR ¥¤¥ª¥ó¸»¤òƳÆþ¤·³«È¯¤ò¿Ê¤á¤Æ¤­¤¿¡£¤³¤ì¤Þ¤ÇB,C, O, N, Ne, Kr, Xe ¤Ê¤É¤Î¥¤¥ª¥óÀ¸À®¤Î³«È¯¤¬¹Ô¤ï¤ì¡¢´û¤Ë¼Â¸³¥æ¡¼¥¶¡¼¤Ë¤â¶¡µë¤µ¤ì¤Æ¤­¤¿¡£º£²ó¡¢¹¹¤Ê¤ë²Ã®¥Ó¡¼¥àÁý¶¯¤Î¤¿¤á¡¢¥¤¥ª¥ó¸»½Ð¸ýÅŶ˹½Â¤¤ÎÂçÉý¤Ê²þ¤¤ò¹Ô¤Ã¤¿¡£¶ñÂÎŪ¤Ë¤Ï³«¸ý¤Î³ÈÂç¡¢µÚ¤Ó°õ²ÃÅÅ°µ¤ÎºÇŬ²½¤ò¹Ô¤Ã¤¿¡£¤Þ¤¿¡¢°ú½Ð¤µ¤ì¤¿¥¤¥ª¥ó¥Ó¡¼¥à¤ÎAVF¥µ¥¤¥¯¥í¥È¥í¥óÆþ¼Í¤Þ¤Ç¤Î¥Ó¡¼¥àÆ©²á¸úΨ¤Î¸þ¾å¤òÌܻؤ·¡¢Ï³¤ì¼§¾ì¤¬ÌäÂê¤È¤Ê¤Ã¤Æ¤¤¤ë¥Ó¡¼¥àÍ¢Á÷·Ï¤Ø¤Î¥¹¥Æ¥¢¥ê¥ó¥°¥Þ¥°¥Í¥Ã¥È¤ÎÀßÃ֤ʤɤò¹Ô¤Ã¤¿¡£¤³¤ì¤é¤Î²þ¤¤ò´ð¤Ë¥Ó¡¼¥à¥Æ¥¹¥È¤ò¹Ô¤Ã¤¿¤È¤³¤í¡¢°ú½Ð¥Ó¡¼¥à¶¯ÅÙ¤ÎÂçÉý¤Ê¸þ¾å¤¬¸«¤é¤ì¤¿¡£¹Ö±é¤Ç¤Ï¤³¤ì¤é¥Ó¡¼¥à³«È¯¤Î¾ÜºÙ¤Ë¤Ä¤¤¤Æȯɽ¤¹¤ë¡£
 
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SAP043
p.536
SPring-8Àþ·¿²Ã®´ï¤Î¿··¿ÅŻҽƥ«¥½¡¼¥É¤Î»îºî»î¸³
R&D of the gun cathode for the SPring-8 Linac

¡ûÎëÌÚ ¿­²ð¡¤Ã«Æâ ÅØ¡¤¾®ÎÓ ÍøÌÀ¡¤²ÖÌÚ Çîʸ¡Ê(¸øºâ)¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûShinsuke Suzuki, Tsutomu Taniuchi, Toshiaki Kobayashi, Hirofumi Hanaki (JASRI)
 
SPring-8¤Ç¤ÎTop-up±¿Å¾¤Ë¤ª¤¤¤Æû¼÷Ì¿¤Î¥Õ¥£¥ê¥ó¥°¥Ñ¥¿¡¼¥ó¤Î±¿Å¾¤¬Æ³Æþ¤µ¤ì¡¢¤è¤êÂ礭¤ÊÆþ¼ÍÅÅή¤ÎÍ׵᤬¹â¤Þ¤Ã¤Æ¤¤¤ë¡£¤Þ¤¿¥Õ¥©¡¼¥ë¥È»þ¤Î¥¯¥é¥¤¥¹¥È¥í¥óÅŸ»¤Î¼«Æ°ÀÚ¤êÂؤ¨¤ÎºÝ¤Ë¥ª¥×¥Æ¥£¥¯¥¹¤ÎÊѹ¹¤ò¹Ô¤ï¤Ê¤¤¤¿¤áLinac¤«¤é¤Î½Ð¼ÍÅÅή¤Ï¿¾¯¸º¾¯¤¹¤ë¤³¤È¤¬Â¿¤¤¡£¤³¤ì¤é¤ËÂбþ¤¹¤ë¤¿¤á¤ËÂ礭¤Ê²þ¤¤òȼ¤ï¤Ê¤¤ÅÅήÁý¶¯°Æ¤È¤·¤ÆÅŻҽƤ«¤é¤ÎÅÅή¤òÁý¤ä¤¹¤³¤È¤òÌÜŪ¤È¤·¤Æ»îºî¡¢»î¸³¤ò¹Ô¤Ã¤Æ¤¤¤ë¡£ ¡¡¸½ºß¤Ïľ·Â8mm¤ÎCPI/EIMAC¼ÒY845¥«¥½¡¼¥É¤òÍѤ¤¤Æ1ns¤Î¥Ñ¥ë¥¹Éý¤Ç¥Ô¡¼¥¯6A¤ÎÅŻҥӡ¼¥à¤òÆÀ¤Æ¤¤¤ë¡£¤³¤Î¤È¤­¤Î¥¢¥Î¡¼¥ÉÅÅ°µ180kV¡¢¥Ð¥¤¥¢¥¹ÅÅ°µ60V¡¢¥°¥ê¥Ã¥ÉÅÅ°µ300V¤Ç¤¢¤ë¡£º£²ó»îºî¤·¤¿ÅŻҽƥ«¥½¡¼¥É¤Ï¥«¥½¡¼¥É¤Îľ·Â¤ò10mm¤Ë³È¤²¡¢¤Þ¤¿·Â0.4mm¤Î¥Ç¥£¥ó¥×¥ë¹½Â¤¤òÉߤ­µÍ¤á¤¿ÇÛÃ֤Ȥ·¡¢¥°¥ê¥Ã¥É·ê¤È¥¢¥é¥¤¥á¥ó¥È¤ò¼è¤ë¤³¤È¤Ë¤è¤ê°ú¤­½Ð¤·¸úΨ¤ò¾å¤²¤ÆÅÅή¤ÎÁý¶¯¤ò¿Þ¤ë¡£ ¡¡¸½ºß¤Þ¤Ç»îºî¤ÎÂ裱¹æ¤Ë¤ª¤¤¤Æ70kV¤Î¥¢¥Î¡¼¥ÉÅÅ°µ¤ò»ý¤Ä¥Æ¥¹¥È¥Ù¥ó¥Á¤Ç1kV¤Î¥°¥ê¥Ã¥É¥Ñ¥ë¥µ¡¼¤òÍѤ¤¤ë¤³¤È¤Ë¤è¤êºÇÂç12A¤Î°ú¤­½Ð¤·ÅÅή¤òÆÀ¤ë¤³¤È¤ËÀ®¸ù¤·¤Æ¤¤¤ë¡£ËÜȯɽ¤Ë¤ª¤¤¤Æ¤½¤Î¥Ó¡¼¥à¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¡¢¹½Â¤¡¢»î¸³¤Ë¤Ä¤¤¤Æȯɽ¤¹¤ëͽÄê¤Ç¤¢¤ë¡£
 
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SAP044
p.540
¹âµ±ÅÙÅŻҽÆÍÑ¥Õ¥©¥È¥«¥½¡¼¥É¿·ºàÎÁ¤Î³«È¯¤È¹âÎ̻ҸúΨ²½¤Î¸¦µæ
Development of new photocathode materials and its quantum efficiency improvement for high brightness electron gun.

¡ûº´Æ£ ÂçÊå¡ÊÅìµþ¹©¶ÈÂç³ØÂç³Ø±¡¡Ë¡¤µÈÅÄ ¸÷¹¨¡Ê¹â¥¨¥Í¸¦¡Ë¡¤ÎÓºê µ¬Â÷¡ÊÅìµþ¹©¶ÈÂç³Ø¸¶»Òϧ¹©³Ø¸¦µæ½ê¡Ë¡¤²Æ°æ ÂóÌé¡Ê¹â¥¨¥Í¸¦¡Ë¡¤ÅÄÃæ ¸ù¡Ê»³ÍüÂç³Ø¡Ë
¡ûDaisuke Satoh (Tokyo Inst. of Technology¡¡), Mitsuhiro Yoshida (KEK), Noriyosu Hayashizaki (Tokyo Inst. of Technology¡¡), Takuya Natsui (KEK), Isao Tanaka (Yamanashi University)
 
¼¡À¤Âå¤ÎÅÅ»ÒÀþ·Á²Ã®´ï¤Ç¤Ï¡¢¹âÅŲ١¦Ä㥨¥ß¥Ã¥¿¥ó¥¹¤ÎÅŻҸ»¤¬É¬ÍפȤµ¤ì¤Æ¤ª¤ê¡¢¥Õ¥©¥È¥«¥½¡¼¥É·¿ÅŻҽƤÎƳÆþ¤¬É¬¿Ü¤Ç¤¢¤ë¡£¤·¤«¤·¡¢¥Õ¥©¥È¥«¥½¡¼¥É·¿ÅŻҽƤÎƳÆþ¤Ë¤¢¤¿¤Ã¤Æ¤Ï¥Õ¥©¥È¥«¥½¡¼¥ÉºàÎÁ¤ÎÁªÄ꤬Â礭¤ÊÌäÂê¤È¤Ê¤Ã¤Æ¤¤¤ë¡£½¾Íè¤Î¥Õ¥©¥È¥«¥½¡¼¥ÉºàÎÁ¤Ï¡¢­¡¹âÎ̻ҸúΨ¡Ê¡Á10¡ó¡Ë¤Ç¤Ï¤¢¤ë¤¬¡¢Ã»¼÷Ì¿¡Ê100h¡Ë¤«¤Ä¼è¤ê°·¤¤¤¬Æñ¤·¤¤¥¢¥ë¥«¥ê¶â°·Ï¥Õ¥©¥È¥«¥½¡¼¥É¤«­¢Ä¹¼÷Ì¿¡Ê¡Á1 year¡Ë¤Ç¤¢¤ë¤¬¡¢ÄãÎ̻ҸúΨ¡Ê~10-4¡Ë¤Î½ã¶â°·Ï¥Õ¥©¥È¥«¥½¡¼¥É¤Î2¤Ä¤ÎÁªÂò»è¤Ë¸Â¤é¤ì¤Æ¤ª¤ê¡¢ÅŻҸ»¤ÎÍ×µáÀ­Ç½¤Ë¹ç¤ï¤»¤Æ»È¤¤Ê¬¤±¤Æ¤¤¤ë¤Î¤¬¸½¾õ¤Ç¤¢¤ë¡£Ëܸ¦µæ¤Ï¡¢¤³¤Î¤è¤¦¤Ê¸½¾õ¤òÂdz«¤¹¤ë¤³¤È¤¬¤Ç¤­¤ë¤è¤¦¤Ê¡Êüñ¡Ë¹âÎ̻ҸúΨ¡¦Ä¹¼÷Ì¿¤È¤¤¤¦ÍýÁÛŪ¤ÊÀ­¼Á¤ò¹ç¤ï¤»¤â¤Ä¥Õ¥©¥È¥«¥½¡¼¥É¿·ºàÎÁ¤Î¸¦µæ³«È¯¤È¡Êüò¡Ë¹â²¹²ÃÇ®¥Õ¥©¥È¥«¥½¡¼¥É¤äɽÌ̥ץ饺¥â¥óÎ嵯¥Õ¥©¥È¥«¥½¡¼¥É¤È¤¤¤Ã¤¿¥«¥½¡¼¥É¤Î¹âÎ̻ҸúΨ²½¤Î¸¦µæ¤ò¹Ô¤Ã¤¿¡£ ¡¡¶ñÂÎŪ¤Ë¤Ï¡¢(­µ) IrCe²½¹çʪ¤ÎÃæ¤Ç¤âºÇ¤â°ÂÄê¤Ê·ë¾½Áê¤ò¤â¤Á¡¢¤«¤ÄºÇ¹âÍ»ÅÀ¡Ê2250¡î¡Ë¤ò¼¨¤¹Ir2Ce²½¹çʪ¤È(­¶)¥¢¥ë¥ß¥Ê¥»¥é¥ß¥Ã¥¯¥¹¤Î°ì¼ï¤Ç¤¢¤ë12CaO¡¦7Al2O3¡ÊC12A7¡Ë¤È¤¤¤¦Åŵ¤Àä±ïÂΤËÇ®½èÍý¤ò»Ü¤·¡¢Åŵ¤ÅÁƳÀ­¤ò»ý¤¿¤»¤¿C12A7¥¨¥ì¥¯¥È¥é¥¤¥É¤È¤¤¤¦Êª¼Á¤ò¿·µ¬³«È¯¤·¡¢¥Õ¥©¥È¥«¥½¡¼¥É¤È¤·¤Æ¤ÎÍøÍѲÄǽÀ­¤ò¸¦µæ¤·¤¿¡£¤µ¤é¤ËºàÎÁ³«È¯¤Ë²Ã¤¨¡¢Ir5Ce¥Õ¥©¥È¥«¥½¡¼¥É¤òÍѤ¤¤Æ¶â°ɽÌ̤ǵ¯¤³¤ëɽÌ̥ץ饺¥â¥ó¶¦ÌĤòÍøÍѤ·¤¿¥Õ¥©¥È¥«¥½¡¼¥É¤Î¹âÎ̻ҸúΨ²½¤Î¸¦µæ¤Ë¼è¤êÁȤó¤À¡£
 
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SAP045
p.544
Simulation studies of low emittance muon re-acceleration for muon microscopy application
¡ûSayyora Artikova, Fujio Naito, Mitsuhiro Yoshida (KEK), Noriyosu Hayashizaki (Titech)
 
While conventional muon beam can be used to investigate rather small samples, there is a strong requirement for still lower energy ultra-slow muons that can be stopped near sample surfaces, in thin films and near multi-layer interfaces. A number of cooling techniques have been suggested to produce ultra-slow muons, such as two-photon laser resonant ionization of muonium atoms and energy moderation of muons in a thin foil-degrader. In this work, in close collaboration with the Muon Science Establishment (MUSE) at Material and Life science experimental Facility of J-PARC, we provide a brief overview of the primary muon production target, where two of the four associated secondary beam transport lines which are dedicated to experiments employing the ultra-slow muons. In particular, we present the results for simulation of the ultra-slow muon production with tunable energies in the range of energies between 5.65 and 30 keV based on the simple energy moderation of transported muon beam in thin foil-degrader. In addition, we discuss accelerator optics design and beam acceleration simulation results for muon microscopy, which can provide a microbeam.
 
13:00 - 15:00 
SAP046
p.547
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Design of the initial emittance measurement system for Multi-Alkali photo cathode

¡û°ð³À ÎÆ¡Ê̾Â籡¹©¡Ë¡¤µöÈå ÂÀϺ¡¤ÆÅ»á Å°À®¡¤²ÃÆ£ À¯Çî¡Êʬ»Ò¸¦¡¡UVSOR¡Ë¡¤²Ã¸Å ±Ê¼£¡¤»³¸ý À¿ºÈ¡¤¾®ÎÓ ¹¬Â§¡ÊKEK¡Ë¡¤»³ËÜ ¾°¿Í¡¤ÊÝºä ¾­¿Í¡¤¹âÅè ·½»Ë¡Ê̾Âç ¥·¥ó¥¯¥í¥È¥í¥ó¸÷¥»¥ó¥¿¡¼¡Ë
¡ûRyo Inagaki (Nagoya University), Taro Konomi, Tetsuzyou Tokushi, Masahiro Katoh (UVSOR, IMS), Eiji Kako, Seiya Yamaguchi, Yukinori Kobayashi (KEK), Naoto Yamamoto, Masato Hosaka, Yoshifumi Takashima (NUSR, Nagoya University)
 
¼ÂÍÑÃʳ¬¤ËÆþ¤Ã¤¿XÀþ¼«Í³ÅŻҥ졼¥¶¡¼¤Î¿ôËüÇܤι⤤¥Ñ¥ë¥¹·«¤êÊÖ¤·¤ò»ý¤Ä¼¡À¤Â弫ͳÅŻҥ졼¥¶¡¼¤Î¼Â¸½¤Ë¤Ï¡¢1MHz°Ê¾å¤È¤¤¤¦¹â·«¤êÊÖ¤·³î¤Ä¹âÉʼÁ¤ÎÅŻҽƤ¬ÉԲķç¤Ç¤¢¤ë¡£¤³¤Î¤¿¤á¤Ë¤Ï¡¢¹âÅų¦³î¤ÄϢ³±¿Å¾¤¬²Äǽ¤ÊĶÅÁƳ¶õƶ¤È¹â¤¤±þÅúÀ­¤ò»ý¤Ä¥Õ¥©¥È¥«¥½¡¼¥É¤ÎÁȤ߹ç¤ï¤»¤¬Å¬¤·¤Æ¤¤¤ë¤È¹Í¤¨¤ë¡£¥Õ¥©¥È¥«¥½¡¼¥É¤Î½ÅÍפʥѥé¥á¡¼¥¿¡¼¤ÏÎ̻ҸúΨ¤È½é´ü¥¨¥ß¥Ã¥¿¥ó¥¹¤Ç¤¢¤ê¡¢¤³¤ì¤é¤ÏĶÅÁƳÅŻҽƤÎÀ­Ç½¤òͽ¬¤·¡¢¥ì¡¼¥¶¡¼¤ÎÁªÄê¤ò¹Ô¤¦¤¿¤á¤Ë½ÅÍפǤ¢¤ë¡£¤Þ¤¿¡¢Ä¶ÅÁƳÅŻҽƤ϶ËÄã²¹¤Ç±¿Å¾¤¹¤ë¤¿¤á¡¢Ç®Éé²Ù¤ò¹Í¤¨¤ë¤È¥Õ¥©¥È¥«¥½¡¼¥É¤âÄã²¹¤Ç±¿Å¾¤¹¤ë¤³¤È¤¬Ë¾¤Þ¤·¤¤¡£¤½¤³¤ÇËܸ¦µæ¤Ç¤Ï¡¢¼¼²¹¤«¤é±ÕÂΥإꥦ¥à²¹Å٤ޤǤβ¹ÅÙ°è¤Ç»ÈÍѲÄǽ¤Ê¥Õ¥©¥È¥«¥½¡¼¥É¤ÎºîÀ½¤È¤½¤ÎÎ̻ҸúΨ¤È½é´ü¥¨¥ß¥Ã¥¿¥ó¥¹¤ò¬Äꤹ¤ë¤¿¤á¤Î´Ê°×¤ÊDCÅų¦·¿Â¬ÄêÁõÃÖ¤ÎÀ߷פò¿Ê¤á¤Æ¤¤¤ë¡£¤Þ¤¿¹â¤¤Î̻ҸúΨ¤ò¼Â¸½¤¹¤ë¤¿¤á¤Ë¥Þ¥ë¥Á¥¢¥ë¥«¥ê¥Õ¥©¥È¥«¥½¡¼¥É¤ÎºÎÍѤò¸¡Æ¤¤·¤Æ¤ª¤ê¡¢¤½¤Î´ðÈĺàÎÁ¤¬¥Õ¥©¥È¥«¥½¡¼¥É¤ÎÆÃÀ­¤ËµÚ¤Ü¤¹±Æ¶Á¤òÄ´¤Ù¤ë¤¿¤á¤Ë¡¢ÍÍ¡¹¤ÊºàÎÁ¤Ë¥Þ¥ë¥Á¥¢¥ë¥«¥ê¤Î¾øÃå¤ò¹Ô¤¤¡¢Î̻ҸúΨ¬Äê¤È½é´ü¥¨¥ß¥Ã¥¿¥ó¥¹Â¬Äê¤ò¹Ô¤¦·×²è¤Ç¤¢¤ë¡£ ËÜȯɽ¤Ç¤Ï¡¢²æ¡¹¤¬³«È¯¤ò¿Ê¤á¤Æ¤¤¤ë¾øÃå¥Á¥ã¥ó¥Ð¡¼¤Ç¤Î¾øÃå»î¸³·ë²Ì¤È½é´ü¥¨¥ß¥Ã¥¿¥ó¥¹Â¬ÄêÁõÃ֤ι½À®¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£
 
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SAP047
p.550
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Laser ion source with a multi pulse laser

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Development of four-beam IH-RFQ linear accelerator

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Performance Evaluation of KEK ERL Main Linac Tuner

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ÅìËÌÂç³Ø 1.2 GeV ¥Ö¡¼¥¹¥¿¡¼¥·¥ó¥¯¥í¥È¥í¥ó¡¡¥¢¥Ã¥×¥°¥ì¡¼¥ÉÍÑ¡¢»Í¶Ë¡¦Ï»¶ËÁȹ礻Åż§ÀÐ2¼ïÎà¤ÎÀ߷ס¢À½Â¤¡¢Â¬Äê¡¢ÀßÃÖ¡¢¥¢¥é¥¤¥ó¥á¥ó¥È
Design, fabrication, measurement, installation and alignment of 2 types of quadrupole-sextupole combined magnets for the upgrade of the 1.2 GeV booster synchrotron at Tohoku University.
¡û¥Ù¡¼¥¯¥Þ¥ó ¥¦¥£¥ê¥¢¥à¡¤¥¢¥ó¥È¥ï¥ó¥Ì ¥·¥ë¥ô¥¡¥ó¡¤¥Ü¥Ã¥·¥§ ¥Ñ¥È¥ê¥¹¡¤¥Õ¥©¥ì ¥Õ¥ì¥Ç¥ê¥Ã¥¯¡¤¥¸¥Õ¥³¥Õ ¥Ú¥È¥³¡¤¥¸¥å¥Ï¥Î ¥Ñ¥È¥ê¥¹¡¤¥ë¥ì ¥Þ¥ê¥¸¥å¥ê¡¼¡¤¥¹¥¤¥Í¥ó ¥í¥é¥ó¡¤¥¿¥ä¥ë¥À ¥µ¥ß¥å¥¨¥ë¡Ê¥·¥°¥Þ¥Õ¥£¡¡¥ô¥¡¥ó¥Ì¡¡¥Õ¥é¥ó¥¹¡Ë¡¤ÉÍ ¹­¹¬¡¤Æü½Ð ÉÙ»Îͺ¡ÊÅìËÌÂç³ØÅŻҸ÷Íý³Ø¸¦µæ¥»¥ó¥¿¡¼ÀçÂæ¡Ë
¡ûWilliam Beeckman, Sylvain Antoine, Patrice Bocher, Frederick Forest, Petko Jivkov, Patrice Jehanno, Marie-julie Leray, Laurent Swinnen, Samuel Taillardat (SIGMAPHI, Vannes, France), Hiroyuki Hama, Fujio Hinode (Research Center for Electron Photon Science, Tohoku Univ.)
 
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p.628
J-PARC RCS¼çÅż§ÀÐÅŸ»À©¸æ¥·¥¹¥Æ¥à¤Î³«È¯
Development of control system for J-PARC RCS Main Magnet Power Supplies

¡ûÅÏÊÕ ÂÙ¹­¡¤Ã« ¶µÉסʸ¶»ÒÎϵ¡¹½¡Ë¡¤°æ¾å ·½¸ã¡ÊÆüËÜ¥¢¥É¥Ð¥ó¥¹¥É¥Æ¥¯¥Î¥í¥¸¡¼¡Ë
¡ûYasuhiro Watanabe, Norio Tani (JAEA), Keigo Inoue (NAT)
 
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p.632
SPring-8ÃßÀÑ¥ê¥ó¥°¤Ë¤ª¤±¤ë¹â®¥Ñ¥ë¥¹¥É¥é¥¤¥ÖÅŸ»¤Î³«È¯
Development of fast pulse driving power supply in the SPring-8 storage ring

¡ûËþÅÄ »Ë¿¥¡¤¾®ÎÓ ÏÂÀ¸¡¤ÃæÀ¾ äϺ¡¤¿¼¸« ·ò»Ê¡Ê¡Ê¸øºâ¡Ë¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë¡¤ÂçÅç δ¡ÊÍý¸¦¡Ë¡¤Âç·§ ½ÕÉס¤º´¡¹ÌÚ Ìмù¡Ê¡Ê¸øºâ¡Ë¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûChikaori Mitsuda, Kazuo Kobayashi, Tatsuro Nakanishi, Kenji Fukami (JASRI/SPring-8), Takashi Ohshima (RIKEN/SPring-8 Center), Haruo Ohkuma, Shigeki Sasaki (JASRI/SPring-8)
 
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p.637
SAGA HIMATÍÑÅż§ÀÐÅŸ»¤Î³«È¯
DEVELOPMENT OF POWER SUPPLIES FOR ELECTROMAGNETS OF SAGA HIMAT

ĹëÀî ÃÒ¹¨¡¤µ×ÊÝÅÄ ·ò²ð¡¤¡û»³ùõ Ĺ¼£¡¤ÀÆÆ£ δ¡ÊÅì¼Ç»°É©Åŵ¡»º¶È¥·¥¹¥Æ¥à¡Ê³ô¡Ë¡Ë¡¤ÆâÌÚ ¸ù¡Ê»°É©Åŵ¡¡Ê³ô¡Ë¡Ë¡¤¹â¸« µÈ½¨¡Ê»°É©Åŵ¡¥¨¥ó¥¸¥Ë¥¢¥ê¥ó¥°¡Ê³ô¡Ë¡Ë¡¤¶âß· ¸÷δ¡¤±óÆ£ ¿¿¹­¡Ê¶å½£¹ñºÝ½Åγ»ÒÀþ¤¬¤ó¼£ÎÅ¥»¥ó¥¿¡¼¡Ë
Chihiro Hasegawa, Kensuke Kubota, ¡ûChoji Yamazaki, Takashi Saito (TMEIC), Isao Uchiki (Mitsubishi Electric Corporation), Yoshihide Takami (Mitsubishi Electric Engineering Corporation), Mitsutaka Kanazawa, Masahiro Endo (Ion Beam Therapy Center, SAGA HIMAT Foundation)
 
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Development of a pulsed quadrupole magnet power supply in J-PARC RCS
¡ûÅÏÊÕ ÂÙ¹­¡ÊÆüËܸ¶»ÒÎϸ¦µæ³«È¯µ¡¹½¡Ë
¡ûYasuhiro Watanabe (JAEA)
 
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Optimization of a Harmonic Coil for the Field Measurement of Sextupole Magnets

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Study on 2 cell rf-deflector cavity for ultra-short electron bunch measurement

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Residual dose rate monitoring for future machine activation control at J-PARC MR

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¡ûTakashi Ohshima, Hirokazu Maesaka, Yuji Otake (RIKEN SPring-8 Center), Shin-ichi Matsubara (JASRI), Shinobu Inoue (SPring-8 Service Co., Ltd.)
 
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¡ûItta Nozawa, Koichi Kan, Jinfeng Yang, Atsushi Ogata, Takafumi Kondoh, Masao Gohdo, Kimihiro Norizawa, Hitoshi Kobayashi, Yoichi Yoshida (ISIR, Osaka Univ.)
 
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¡ûSouroku Ueda, Takemasa Masuda, Mitsuhiro Masaki (Japan Synchrotron Radiation Research Institute)
 
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J-PARC MRÀ©¸æ¤Ç¤Î²¾ÁÛ¥Þ¥·¥ó¤Î±þÍÑ
Virtual Machines in J-PARC MR Control

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¡ûNorihiko Kamikubota (J-PARC/KEK)
 
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IFMIF/EVEDA²Ã®´ïÀ©¸æ·Ï¤ÈInjector¤È¤Î¥¤¥ó¥¿¡¼¥Õ¥§¡¼¥¹»î¸³
Interface test between IFMIF/EVEDA accelerator control system and Injector

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¡ûHiroki Takahashi, Hironao Sakaki, Toshiyuki Kojima, Takahiro Narita, Sunao Maebara, Hiromitsu Suzuki (JAEA)
 
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CSS¤òÍѤ¤¤¿SuperKEKB°ÂÁ´¥½¥Õ¥È¥¦¥§¥¢¥·¥¹¥Æ¥à¤Î¹½ÃÛ
Construction of SuperKEKB safety software system based on CSS

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¡ûKenzi Yoshii (MITSUBISHI ELECTRIC SYSTEM & SERVICE CO., LTD.), Junichi Odagiri, Masaaki Ono, Kikuo Kudo, Masayuki Sato, Toshihiro Mimashi (High Energy Accelerator Research Organization (KEK)), Hirohito Asai, Naoki Tanaka, Mikio Tanaka (MITSUBISHI ELECTRIC SYSTEM & SERVICE CO., LTD.)
 
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p.731
J-PARC LINAC/RCS¤Ë¤ª¤±¤ëÇÈ·Á¥Ç¡¼¥¿Æ±´ü¥·¥¹¥Æ¥à¤Î¹½ÃÛ
Development of Data Synchronization System for the LINAC/RCS in J-PARC

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¡ûMasato Kawase (Mitsubishi Electric System & Service Co.,Ltd), Hiroki Takahashi, Nobuhiro Kikuzawa, Nobuo Ouchi, Yuko Kato (JAEA/J-PARC Center)
 
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½ÄÊý¸þBunch-by-Bunch¥Õ¥£¡¼¥É¥Ð¥Ã¥¯Íѹâ¸úΨ¥¨¥Í¥ë¥®¡¼¥­¥Ã¥«¡¼¤Î³«È¯
Development of a Highly-Efficient Energy Kicker for Longitudinal Bunch-by-Bunch Feedback

¡ûÀµÌÚ ËþÇÃæ¼ ¹ä¡¤¾®ÎÓ ÏÂÀ¸¡¤Æ£ÅÄ µ®¹°¡¤ÂçÀÐ ¿¿Ì顤¾®Ï© Àµ½ã¡¤º´¡¹ÌÚ Ìмù¡¤Âç·§ ½ÕÉסʡʸøºâ¡Ë¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûMitsuhiro Masaki, Takeshi Nakamura, Kazuo Kobayashi, Takahiro Fujita, Masaya Ohishi, Masazumi Shoji, Shigeki Sasaki, Haruo Ohkuma (JASRI/SPring-8)
 
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VXI-11¥×¥í¥È¥³¥ë¤òÍѤ¤¤¿J-PARC MR¤Ë¤ª¤±¤ë¥¹¥­¥å¡¼»Í¶ËÅż§ÀФÎEPICSÀ©¸æ¥·¥¹¥Æ¥à
EPICS-based control system using VXI-11 protocol for skew quadrupole magnets in J-PARC MR

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¡ûKenichi Sato, Shuei Yamada, Norihiko Kamikubota, Junpei Takano (KEK), Susumu Yoshida (KIS), Noboru Yamamoto (KEK)
 
J-PARC MR¡ÊMain Ring¡Ë¤Ë¤ª¤¤¤Æ¡¢¿·¤¿¤Ë¥¹¥­¥å¡¼»Í¶Ë¡ÊSkewQ¡ËÅż§ÀФòÀ©¸æ¤¹¤ë¤¿¤á¤Ë¡¢EPICS¡ÊExperimental Physics and Industrial Control System¡Ë¥Ù¡¼¥¹¤ÎÀ©¸æ¥·¥¹¥Æ¥à¤ò¹½ÃÛ¤·¤¿¡£¤³¤ÎÀ©¸æ¥·¥¹¥Æ¥à¤Ï¡¢a)LinuxÅëºÜ¤ÎPLC¥³¥ó¥È¥í¡¼¥é¡Ê²£²ÏÅŵ¡ F3RP61-2L¡Ë¡¢b)¥Õ¥¡¥ó¥¯¥·¥ç¥ó¥¸¥§¥Í¥ì¡¼¥¿¡ÊTektronix AFG3000¡Ë¡¢¤ª¤è¤Ó c)¥Ð¥¤¥Ý¡¼¥éDC¥¢¥ó¥×¡Ê¥¨¥Ì¥¨¥Õ²óÏ©Àß·×¥Ö¥í¥Ã¥¯ BP4620¡Ë¤Ç¹½À®¤µ¤ì¤ë¡£¥Õ¥¡¥ó¥¯¥·¥ç¥ó¥¸¥§¥Í¥ì¡¼¥¿¤Ï¡¢F3RP61-2L¤«¤éEthernet·Ðͳ¤ÎVXI-11¥×¥í¥È¥³¥ë¤ÇÀ©¸æ¤µ¤ì¤ë¡£¤Þ¤¿¡¢¥Ð¥¤¥Ý¡¼¥éDC¥¢¥ó¥×¤Ï¥Ï¡¼¥É¥ï¥¤¥ä¤ÇPLC I/O¥â¥¸¥å¡¼¥ë¤ËÀܳ¤µ¤ì¤Æ¤¤¤ë¡£Î¾¥Ç¥Ð¥¤¥¹¤òEPICS¤«¤éÀ©¸æ¤¹¤ë¤¿¤á¤Î³«È¯¤ò¹Ô¤Ã¤¿¡£ ¼ÂºÝ¤ÎMR±¿Å¾¤Ç¤Ï¡¢¥Õ¥¡¥ó¥¯¥·¥ç¥ó¥¸¥§¥Í¥ì¡¼¥¿¤ÏMR¤Î¥Þ¥·¥ó¥µ¥¤¥¯¥ë¡Ê¸½ºß2.48Éáˤ´¤È¤Ë¥é¥ó¥×ÇÈ·Á¤òÀ¸À®¤·¡¢¤½¤ÎÇÈ·Á¤Ë´ð¤¤¤Æ¥Ð¥¤¥Ý¡¼¥éDC¥¢¥ó¥×¤¬SkewQÅż§ÀФò¶îÆ°¤¹¤ë¡£ËÜÀ©¸æ¥·¥¹¥Æ¥à¤Ï2012ǯ¤è¤ê³«È¯¤µ¤ì¡¢2013ǯ1·î¤«¤é±¿ÍѤò³«»Ï¤·¤¿¡£
 
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p.742
KU-FEL¤Ë¤ª¤±¤ëÅŻҥӡ¼¥à°ÂÄê²½
Study on Electron Beam Stabilization in KU-FEL

¡û±ü¼ ·òÍ´¡¤Á´ ßÛ½Ó¡¤¸¤»ô ¸µÀ²¡¤Äμ ͦÊ塤»°Åç ·òÂÀ¡¤KONSTANTIN TORGASIN¡¤NEGM HANI¡¤OMER MAHAMED¡¤µÈÅÄ ¶³Ê¿¡¤µª°æ ½Óµ±¡¤ÁýÅÄ ³«¡¤Âç³À ±ÑÌÀ¡ÊµþÅÔÂç³Ø¡¡¥¨¥Í¥ë¥®¡¼Íý¹©³Ø¸¦µæ½ê¡Ë
¡ûKensuke Okumura, Heishun Zen, Motoharu Inukai, Yuusuke Tsugamura, Kenta Mishima, Torgasin Konstantin, Hani Negm, Mahamed Omer, Kyohei Yoshida, Toshiteru Kii, Kai Masuda, Hideaki Ohgaki (IAE, Kyoto University)
 
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p.746
MADOCA¸ß´¹ ´Ê°×¥Ç¡¼¥¿¼ý½¸¥·¥¹¥Æ¥à MyCC¤Î³«È¯
DEVELOPMENT OF MYCC FOR A SIMPLE DATA ACQUISITION SYSTEM COMPATIBLE WITH MADOCA.

¡û´Ý»³ ½ÓÇ·¡Ê¡Ê³ô¡ËÆüËܵ»½Ñ¥»¥ó¥¿¡¼¡Ë¡¤Ê¡°æ ã¡ÊÊü¼Í¸÷²Ê³ØÁí¹ç¸¦µæ¥»¥ó¥¿¡¼¡Ë¡¤¹­Ìî Åù»Ò¡¤»³¼¯ ¸÷͵¡Ê¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûToshiyuki Maruyama (Nippon Gijutsu Center Co.,Ltd.), Toru Fukui (RIKEN SPring-8 Center), Toko Hirono, Mitsuhiro Yamaga (JASRI)
 
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p.750
KEK ÅŻҡ¦ÍÛÅÅ»ÒÆþ¼Í´ï¤Ç¼Â¸½¤¹¤ë²¾Á۲î´ï
Virtual accelerator realization at KEK electron/positron linac

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¡ûKazuro Furukawa, Atsuyoshi Akiyama, Ryo Ichimiya, Masako Iwasaki (KEK/SOKENDAI), Tomohiro Okazaki (EJIT), Jun-ichi Odagiri, Hiroshi Kaji, Eiichi Kadokura (KEK/SOKENDAI), Shiro Kusano, Takuya Kudou (MELCO-SC), Miho Kurashina, Masanori Satoh (KEK/SOKENDAI), Takuya Nakamura (MELCO-SC), Tatsuro Nakamura, Tsuyoshi Suwada, Katsuhiko Mikawa (KEK/SOKENDAI), Yoshikazu Mizukawa (MELCO-SC), Fusashi Miyahara (KEK/SOKENDAI), Kenji Yoshii (MELCO-SC)
 
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Upgrade of Wide Area Remote Control System (WARCS) at SPring-8 and SACLA

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Tatsuaki Sakamoto, ¡ûTakashi Sugimoto (JASRI)
 
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Construction and Present status of the database system for Aichi SR accelerators

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¡ûNaoto Yamamoto, Takumi Takano, Atsushi Mano, Masahito Hosaka, Yoshifumi Takashima (NUSR, Nagoya University), Masahiro Katoh (UVSOR, IMS)
 
¤¢¤¤¤ÁSR¤Ï2013ǯ4·î¤è¤ê¶¡ÍѤò³«»Ï¤·¤¿°¦Ã詤ÎÊü¼Í¸÷ÍøÍÑ»ÜÀߤǤ¢¤ë¡£ËÜ»ÜÀߤÎÃßÀÑ¥ê¥ó¥°¤Ï¥¨¥Í¥ë¥®¡¼1.2 GeV, ¼þĹ72 m ¤ÈÈæ³ÓŪ¾®·¿¤Ç¤¢¤ë¤¬¡¢5T¤ÎĶÅÁƳÅż§ÀФòÊиþÅż§ÀФ˺ÎÍѤ·¤¿¤³¤È¤Ë¤è¤ê¡¢Î׳¦¥¨¥Í¥ë¥®¡¼4.8 keV¤Î¹ÅXÀþ¤òÍøÍѤǤ­¤ë¤È¤¤¤¦ÆÃħ¤ò»ý¤Ä¡£ËÜ»ÜÀߤθ÷¸»²Ã®´ï¤ÏÀþ·Á²Ã®´ï¡¦¥Ö¡¼¥¹¥¿¡¼¥·¥ó¥¯¥í¥È¥í¥ó¡¦ÃßÀÑ¥ê¥ó¥°¤«¤éÀ®¤ë¡£ ¡¡ËÜ»ÜÀߤǤϲî´ï¤Î¥³¥ß¥Ã¥·¥ç¥Ë¥ó¥°µÚ¤Ó±¿Å¾¾õ¶·¤ò¾¯¿Í¿ô¤Ç´Æ»ë¡¦´ÉÍý¤¹¤ë¤³¤È¤òÌÜŪ¤Ë²Ã®´ïµÚ¤Ó¥æ¡¼¥Æ¥£¥ê¥Æ¥£¾õ¶·¤Î¥Ç¡¼¥¿¥Ù¡¼¥¹¥·¥¹¥Æ¥à¤ò¹½ÃÛ¤·¤¿¡£Ëܥǡ¼¥¿¥Ù¡¼¥¹¤Ç¤Ï²Ã®´ïÁõÃÖ¡¦ÎäµÑ¿åÀßÈ÷¡¦¼¼²¹Åù¤Î¾õ¶·¤òÃ༡´Æ»ë¤·°ì¸µÅª¤Ë´ÉÍý¤·¤Æ¤¤¤ë¡£ ¡¡ËÜ¥·¥¹¥Æ¥à¤Î¹½ÃÛ¤ËÅö¤¿¤ê¥Ç¡¼¥¿¥Ù¡¼¥¹¥µ¡¼¥Ð¤ÏMySQL¤òºÎÍѤ·¡¢²Ã®´ïÁõÃÖÀ©¸æ¥·¥¹¥Æ¥à¡ÊEPICS¡ËµÚ¤Ó¥æ¡¼¥Æ¥£¥ê¥Æ¥£ÀßÈ÷¡ÊÀìÍÑ¥½¥Õ¥È¥¦¥§¥¢¡Ë¤«¤é¤Î¥Ç¡¼¥¿ÁÞÆþ¤Ë¤ÏC¸À¸ì¤Ë¤Æ¥×¥í¥°¥é¥à¤òºîÀ®¤·¤¿¡£ËÜ¥·¥¹¥Æ¥à¤Ï2012ǯ3·î¤è¤ê»Ï¤Þ¤Ã¤¿¥³¥ß¥Ã¥·¥ç¥Ë¥ó¥°¤ä¥Þ¥·¥ó¥¹¥¿¥Ç¥£¤Ç¤Î³Æ¼ïÁàºîµÚ¤Ó¥Ó¡¼¥à¥Ñ¥é¥á¡¼¥¿¤ÎÊѲ½¤ò´Æ»ë¡¦µ­Ï¿¤·¤Æ¤ª¤ê¡¢ÁõÃÖ¤ËÉÔ¶ñ¹ç¤¬À¸¤¸¤¿ºÝ¤Î¸¶°øµæÌÀÅù¤Ë¤â³èÍѤµ¤ì¤Æ¤¤¤ë¡£¤Þ¤¿¡¢Æü¡¹¤Î¸÷¸»±¿ÍѤˤª¤¤¤Æ¤Ï°ìÆüËè¤ËÀþ·Á²Ã®´ï¡¦ÃßÀÑ¥ê¥ó¥°¤Î±¿Å¾¼ÂÀÓ¡¢¿¿¶õÅÙ¡¢¥Õ¥©¥ë¥È¹àÌÜ¡¢ÎäµÑ¿åήÎ̤ʤɤÎÅý·×¤ò¼«Æ°½ÐÎϤµ¤»¤ë¤³¤È¤Ç¡¢¸÷¸»¥·¥¹¥Æ¥àÁ´ÂΤΰݻý¡¦´ÉÍý¤ËÌòΩ¤Ã¤Æ¤¤¤ë¡£ ËÜȯɽ¤Ë¤ª¤¤¤Æ¤Ï¤¢¤¤¤ÁSR¤Ë¤ª¤±¤ë²Ã®´ï±¿Å¾¥Ç¡¼¥¿¥Ù¡¼¥¹¤Î¾ÜºÙ¤òÊó¹ð¤¹¤ë¡£
 
13:00 - 15:00 
SAP103
p.760
Performance Study of Four Mirror Laser Resonator for 6 um Minimum Beam Size using Green Laser Oscillator
¡ûArpit Rawankar (SOKENDAI, Graduate University for Advanced Studies, Hayama), Junji Urakawa, Hirotaka Shimizu, Nobuhiro Terunuma, Yosuke Honda (KEK, Japan)
 
The Accelerator Test Facility (ATF) was constructed at KEK to study low emittance beam physics and to develop the technologies associated with it. In ATF damping ring, electron beam size has been measured with laser wire optical cavity comprising two mirrors based on Compton scattering. A new four mirror laser wire system has been developed for quick measurements of three dimensional beam profiles. This system has many advantages over two mirror laser wire system. Four mirror resonator reduces the sensitivity towards misalignment as compare to two mirror resonator. Measured Finesse of the resonator is more than 4000. Inside ATF damping ring, electron beam has very small size of 10um in vertical direction. To measure electron beam profile, very thin laser beam size is needed. Laser waist size¡¢around 6um in sagittal plane is achieved in between two concave mirrors. Special type of mirror alignment scheme is used to make a compact four mirror optical cavity. Laser resonator is designed to work in vacuum environment with a complex mirror holder design .We report the performance studies of such four mirror resonator using 532 nm CW laser oscillator .
 
13:00 - 15:00 
SAP104

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Development of ultrashort electron source via laser wakefield acceleration
¡ûÃæ¿· ¿®É§¡¤ºÙ³­ ÃÎľ¡¤±×ÅÄ ¿­°ì¡¤¥¸¥É¥³¥Õ ¥¢¥ì¥¯¥»¥¤¡ÊºåÂç¸÷²Ê³Ø¥»¥ó¥¿¡¼¡Ë¡¤¿åÅÄ ¹¥Íº¡¤Ã渶 ¹°µ®¡¤´äº´ ·òÂÀ¡¤¹¬¸¶ Êþ¹­¡ÊºåÂ籡¹©¡Ë¡¤¿ÀÌç Àµ¾ë¡¤¾®Âí ½¨¹Ô¡¤¿¹ Æ»ÌÀ¡¤¥Ö¥é¥Î¥Õ ¥»¥ë¥²¥¤¡Ê¸¶¸¦´ØÀ¾¡Ë¡¤»³ºê ½ß¡Ê̾Â籡¹©¡Ë¡¤¹Ó²Ï °ìÅÏ¡ÊÅ纬ÂçÁí¹çÍý¹©¡Ë¡¤º´Ìî ÃÒ°ì¡ÊºåÂ籡¹©¡Ê¥Þ¥Æ¥ê¥¢¥ëÀ¸»º²Ê³Ø¡Ë¡Ë¡¤Ñ»¶Ì λʹ¡ÊºåÂç¸÷²Ê³Ø¥»¥ó¥¿¡¼¡Ë
¡ûNobuhiko Nakanii, Tomonao Hosokai, Shin'ichi Masuda, Alexei Zhidkov (PPC, Osaka U.), Yoshio Mizuta, Hiroki Nakahara, Kenta Iwasa, Tomohiro Kohara (GSE, Osaka U.), Masaki Kando, Hideyuki Kotaki, Michiaki Mori, Sergei Bulanov (KPSI, JAEA), Atsushi Yamazaki (GSE, Nagoya U.), Kazuto Arakawa (IFSE, Shimane U.), Tomokazu Sano (GES(MMS), Osaka U.), Ryosuke Kodama (PPC, Osaka U.)
 
We present the current developmental status of stable ultrashort electron source based on laser wakefield acceleration (LWFA) towards applications such as ultrafast electron imaging. A stable and directional electron beam has been produced by a plasma micro optics technique with applying external static magnetic field at gasjet target along laser axis in LWFA. Using this technique, we have succeeded in controlling the beam direction by tilting the magnetic field axis. This steering technique enables proper injection into a further wakefield to obtain higher energy and/or narrow energy spread. In next step, the broad energy spectrum of the injector beam will be made narrow by a staging LWFA with using double laser pulses towards the application use. The energy spectrum can be modified by phase rotation in another wakefield excited by second laser pulse synchronised with the first laser pulse producing the injector beam.
 
13:00 - 15:00 
SAP106
p.765
SuperKEKB¤Ë¸þ¤±¤¿DAW·¿RFÅŻҽÆÍÑYb·Ï¥Ï¥¤¥Ö¥ê¥Ã¥É¥ì¡¼¥¶¡¼¥·¥¹¥Æ¥à
Yb hybrid laser system of DAW RF gun for SuperKEKB

¡û¼þ æƱ§¡¤²Æ°æ ÂóÌ顤µÈÅÄ ¸÷¹¨¡¤¾®Àî ͺÆóϺ¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë
¡ûXiangyu Zhou, Takuya Natsui, Mitsuhiro Yoshida, Yujiro Ogawa (KEK)
 
SuperKEKB¤Ç¤Ï¹â¥ë¥ß¥Î¥·¥Æ¥£¡¼¤òÆÀ¤ë¤ËÂФ·¤ÆÄ㥨¥ß¥Ã¥¿¥ó¥¹²½¤Î¤¿¤á¡¢RFÅŻҽƤòƳÆþ¤·¤¿¡£É¬ÍפÊÅŲ٤Î5nC¤È¥¨¥ß¥Ã¥¿¥ó¥¹¤Î10¦Ìm¤Ë¤è¤ê¡¢¿ô½½ps °Ê¾å¤Î½é´ü¥Ð¥ó¥ÁŤ¬É¬¿Ü¤Ç¤¢¤ë¡£Ir5Ce¥«¥½¡¼¥É¤Ë¤è¤ê°ÂÄê¤Ê¥Ñ¥ë¥¹¥¨¥Í¥ë¥®¡¼mJ¥ì¡¼¥¶¡¼¸÷¸»¤¬Íפ뤳¤È¤¬Ê¬¤«¤ë¡£¹¹¤Ë¥¨¥ß¥Ã¥¿¥ó¥¹¤¬ÍÞÀ©¤¹¤ë¤¿¤á¡¢¥ì¡¼¥¶¡¼¥Ñ¥ë¥¹¼þÇÈ¿ôÎΰè¤ÎÀ©¸æ¤Ë¤è¤ê¥ì¡¼¥¶¡¼¥Ñ¥ë¥¹¤Î¹­ÂÓ°è²½¤¬Ë¾¤Þ¤·¤¤¡£¤³¤ì¤Ë¹ç¤ï¤»¤Æ¡¢Ãæ¿´ÇÈĹ260nm¡¢¥Ñ¥ë¥¹Ä¹30ps¡¢¥Ñ¥ë¥¹¥¨¥Í¥ë¥®¡¼mJ¤Î¹­ÂӰ襹¥Ú¥¯¥È¥ë¥Ñ¥ë¥¹¥ì¡¼¥¶¡¼¤¬Í׵ᤵ¤ì¤ë¡£ Yb·Ï¥ì¡¼¥¶¡¼¤ÏTiS·Ï¤ÈNd·Ï¥ì¡¼¥¶¡¼¤è¤ê¡¢¹âÁýÉý¸úΨ¡¦¹­ÂӰ衦Ä㥳¥¹¥È¡¦¥³¥ó¥Ñ¥¯¥È¤Ê¤É¤ÎÍøÅÀ¤¬¤¢¤ë¡£½¾¤Ã¤Æ¡¢RFÅŻҽƤòÎ嵯¤¹¤ë¤¿¤á¡¢Yb·Ï¥ì¡¼¥¶¡¼¥·¥¹¥Æ¥à¤Î³«È¯¤ò¹Ô¤Ã¤Æ¤¤¤ë¡£ ¤Þ¤º¡¢Yb¥Õ¥¡¥¤¥Ð¡¼È¯¿¶´ï¤«¤éÃæ¿´ÇÈĹ1040nm¡¢¹­ÂÓ°èfs¼ï¸÷¸»¤òÀ¸À®¤·¤¿¡£Linac¤Î2856MHz¤È¹ç¤ï¤»¤ë¤¿¤á¡¢¸÷¸»¤Î·«¤êÊÖ¤·¼þÇÈ¿ô¤ò51.98MHz¤Ë¥í¥Ã¥¯¤·¤¿¡£¤½¤·¤ÆÆ©²á·¿²óÀ޳ʻҤǥѥ륹Éý¤¬30ps¤Þ¤Ç¿­¤Ð¤µ¤»¡¢2Ãʳ¬¤ÎYb¥Õ¥¡¥¤¥Ð¡¼ÁýÉý´ï¤Ë¤è¤ë¥ï¥Ã¥È¥ì¥Ù¥ë¤Þ¤ÇÁýÉý¤·¡¢¥Ñ¥ë¥¹¥Ô¥Ã¥«¡¼¤Ë¤è¤ê¥Ñ¥ë¥¹¤ò´Ö°ú¤¤¤¿¡£Äã·«¤êÊÖ¤·¡¦¹â¥Ô¡¼¥¯¶¯Å٤Υѥ륹¤òÁýÉý¤¹¤ë¤¿¤á¡¢thin-disk·¿¸ÇÂÎÁýÉý´ï¤òƳÆþ¤·¤¿¡£Yb:YAG·ë¾½¤òÍѤ¤¤Æ¡¢ºÆÀ¸ÁýÉýµÚ¤Ó2Ãʳ¬¤Î¥Þ¥ë¥Á¥Ñ¥¹ÁýÉý¤ò¹Ô¤Ã¤¿¡£ºÇ¸å¡¢2Ãʳ¬¤ÎÂè2¹âÄ´ÇÈȯÀ¸¤Ë¤è¤êmJ¡¢258nm»ç³°¸÷¸»¤¬ÆÀ¤é¤ì¤¿¡£ ¥ì¡¼¥¶¡¼¥Ñ¥ë¥¹¤òIr5Ce¥«¥½¡¼¥É¤ËƳÆþ¤·¡¢·ë²Ì¤È¤·¤Æ1.2nC¤ÎÅŻҥӡ¼¥à¤òÆÀ¤¿¡£
 
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SAP107
p.769
ERL»î¸³²Ã®´ïÆþ¼ÍÉô¤Ë¤ª¤±¤ë¸÷±¢¶ËÅŻҽÆÍѥ졼¥¶¡¼¥·¥¹¥Æ¥à¤Î³«È¯
Photo cathode laser system for Compact-ERL injector

¡ûËÜÅÄ Íβ𡤵ÜÅç »Ê¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë¡¤¥³¥ó¥Ñ¥¯¥ÈERL ¥³¥ß¥Ã¥·¥ç¥Ë¥ó¥°¥°¥ë¡¼¥×¡Ê¹â¥¨¸¦/JAEA/¹­ÅçÂç³Ø¡Ë
¡ûYosuke Honda, Tsukasa Miyajima (KEK), Commissioning_group Compact_erl (KEK/JAEA/Hiroshima university)
 
¼¡À¤Âå¤ÎÊü¼Í¸÷¸»¤È¤·¤ÆERL·¿²Ã®´ï¤¬Äó°Æ¤µ¤ì¤Æ¤¤¤ë¡£KEK¤Ç¤ÏERL»î¸³²Ã®´ï(¥³¥ó¥Ñ¥¯¥ÈERL)¤Î·úÀߤ¬¿Ê¤á¤é¤ì¤Æ¤ª¤ê¡¢4·î¤«¤é¤½¤ÎÆþ¼Í´ïÉô¤Î¥Ó¡¼¥à±¿Å¾¤ò³«»Ï¤·¤¿¡£¸÷±¢¶ËDCÅŻҽƤòÍѤ¤¤Æ¥Ó¡¼¥à¤òÀ¸À®¤¹¤ë¤¿¤á¡¢¤½¤Î¥Ó¡¼¥à¹½Â¤¤Ï¥«¥½¡¼¥É¤òÎ嵯¤¹¤ë¥ì¡¼¥¶¡¼¸÷¤Ë¤è¤Ã¤Æ·è¤Þ¤ë¡£¥ì¡¼¥¶¡¼¥·¥¹¥Æ¥à¤Ï¡¢1.3GHz¥â¡¼¥É¥í¥Ã¥¯È¯¿¶´ï¤È¥Õ¥¡¥¤¥Ð¡¼ÁýÉý´ï¥·¥¹¥Æ¥à¤ª¤è¤ÓÇÈĹÊÑ´¹´ï¡¢¤½¤·¤Æ¡¢¥×¥í¥Õ¥¡¥¤¥ë¤ÎÀ°·Á¤È¥«¥½¡¼¥É¤Þ¤Ç¤ÎÍ¢Á÷Éô¡¢¤«¤é¹½À®¤µ¤ì¤ë¡£ËÜȯɽ¤Ç¤Ï¡¢¥Ó¡¼¥à±¿Å¾¤Ë¤ª¤±¤ë¥ì¡¼¥¶¡¼¥·¥¹¥Æ¥à¡¢¤½¤·¤Æ¡¢º£¸å¤Î³«È¯·×²è¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£
 
13:00 - 15:00 
SAP108

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Transient plasma micro optics for laser wakefield electron acceleration
¡û¿åÅÄ ¹¥Íº¡ÊºåÂ籡¹©¡Ë¡¤ºÙ³­ ÃÎľ¡¤±×ÅÄ ¿­°ì¡¤¥¸¥É¥³¥Õ ¥¢¥ì¥¯¥»¥¤¡¤Ãæ¿· ¿®É§¡¤¶â Ÿ¡ÊºåÂç¸÷²Ê³Ø¥»¥ó¥¿¡¼¡Ë¡¤Ã渶 ¹°µ®¡¤¹¬¸¶ Êþ¹­¡¤´äº´ ·òÂÀ¡ÊºåÂ籡¹©¡Ë¡¤¿ÀÌç Àµ¾ë¡¤¥Ö¥é¥Î¥Õ ¥»¥ë¥²¥¤¡Ê¸¶»ÒÎϵ¡¹½´ØÀ¾¡Ë¡¤Ñ»¶Ì λʹ¡ÊºåÂç¸÷²Ê³Ø¥»¥ó¥¿¡¼¡¢ºåÂç¥ì¡¼¥¶¡¼¸¦¡Ë
¡ûYoshio Mizuta (GSE, Osaka U.), Tomonao Hosokai, Shinichi Masuda, Alexei Zhidkov, Nobuhiko Nakanii, Zhan Jin (PPC, Osaka U.), Hiroki Nakahara, Tomohiro Kohara, Kenta Iwasa (GSE, Osaka U.), Masaki Kando, Sergei Bulanov (KPSI, JAEA), Ryosuke Kodama (PPC, Osaka U. , ILE, Osaka U.)
 
²æ¡¹¤Ï¡¢¹â¤¤»Ø¸þÀ­¤ò¤â¤Äñ¿§¤Î¹â¥¨¥Í¥ë¥®¡¼ÅŻҥӡ¼¥à¤ò¥ì¡¼¥¶¡¼¹ÒÀ×¾ì²Ã®¤Ë¤è¤ê°ÂÄê¤ËÀ¸À®¤¹¤ë¤¿¤á¥×¥é¥º¥Þ¥Þ¥¤¥¯¥í¥ª¥×¥Æ¥£¥¯¥¹(TPMO¡§Transient Plasma Micro Optics)¤òÍѤ¤¤ë¤³¤È¤òÄó°Æ¤·¤Æ¤¤¤ë¡£TPMO¤È¤Ï¥×¥ê¥Õ¥©¡¼¥à¥É¥×¥é¥º¥Þ¤òÍøÍѤ·¤¿½¸¸÷¡¦¸÷ƳÇȥǥХ¤¥¹¤Ç¤¢¤ë¡£À¸À®¤µ¤ì¤¿Ä¹¼Ü¤Î¥×¥é¥º¥Þ¥Á¥ã¥Í¥ë¤ò´Þ¤àTPMO¤òÍѤ¤¤ë¤³¤È¤Ç²Ã®µ÷Î¥¤¬Ä¹¤¯¤Ê¤ê¡¢¤½¤Î·ë²Ì°ÌÁê²óž¤¬µ¯¤³¤êÅŻҥӡ¼¥à¤Îñ¿§²½¤¬´üÂԤǤ­¤ë¡£¤Þ¤¿¡¢¹â¥¨¥Í¥ë¥®¡¼²½¤âƱ»þ¤Ë´üÂԤǤ­¤ë¡£TPMO¤Î¸¦µæ¤Ë¤ª¤¤¤Æ²æ¡¹¤Ï¡¢Î׳¦¥Ñ¥ï¡¼°Ê²¼¤ÎŬÅ٤ʥ졼¥¶¡¼¶¯Å٤ˤè¤êÀ¸À®¤µ¤ì¤ëĹ¼Ü¤«¤Ä¿¼¤¤¥×¥é¥º¥Þ¥Á¥ã¥Í¥ë(¥¹¥×¥é¥Ã¥·¥å¥Á¥ã¥Í¥ë)¤Î·ÁÀ®¤ò¼Â¾Ú¤·¤Æ¤¤¤ë¡£ ¸½ºß¡¢¥ì¡¼¥¶¡¼¹ÒÀ×¾ì²Ã®¼Â¸³¤ò¹Ô¤¦¤¿¤á¤Î2¥Ó¡¼¥à¥ì¡¼¥¶¡¼¥·¥¹¥Æ¥à¤òÂçºåÂç³Ø¸÷²Ê³Ø¥»¥ó¥¿¡¼¤Ë¹½ÃÛ¤·¼Â¸³¤ò³«»Ï¤·¤Æ¤¤¤ë¡£ËÜȯɽ¤Ç¤ÏTPMO¤òÍøÍѤ·¤¿¥ì¡¼¥¶¡¼¹ÒÀ×¾ì¤Ë¤è¤ë¹âÉʼÁ¤Ê¶ËûÅŻҥӡ¼¥àȯÀ¸¤ª¤è¤Ó²Ã®¤Ë´Ø¤¹¤ë¸«ÀÑ¡¦½àÈ÷¤È¼Â¸³¤Ë¤Ä¤¤¤ÆµÄÏÀ¤¹¤ë¡£
 
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SAP109
p.773
¥ì¡¼¥¶¡¼¥³¥ó¥×¥È¥ó»¶Íð¤òÍѤ¤¤¿¹â¶¯Å٥졼¥¶¡¼¤ÎľÀÜ¥×¥í¥Õ¥¡¥¤¥ë·×¬
Direct diagnostic technique of high-intensity laser profile based on laser-Compton scattering

¡ûµÈÅÄ Ì÷»Ë¡¤º´Æ£ ÎᡤÌ¼ Þ«¡¤ºä¾å ÏÂÇ·¡¤±óÆ£ ¾´¡¤ÏÉÈø Êý°ì¡ÊÁáÂçÍý¹©¸¦¡Ë
¡ûYasufumi Yoshida, Ryo Sato, Kou Nonomura, Kazuyuki Sakaue, Akira Endo, Masakazu Washio (RISE)
 
¡¡¹â¶¯Å٥졼¥¶¡¼¤Ï¡¤¼¡À¤Âå¤ÎȾƳÂÎϪ¸÷ÍѸ÷¸»¤Ç¤¢¤ëEUV(Extreme Ultraviolet)¸÷¤ÎÀ¸À®ÊýË¡¤Î¤Ò¤È¤Ä¤Ç¤¢¤ëLPP(Laser produced plasma)Ë¡¤Ë¤ª¤¤¤ÆɬÍ×ÉԲķç¤Ç¤¢¤ë¡£EUV¸÷¤ÎÀ¸À®¸úΨ¸þ¾åµÚ¤Ó°ÂÄêÀ­¸þ¾å¤Î¤¿¤á¤Ë¹â¶¯Å٥졼¥¶¡¼¤Î¾×ÆÍÅÀ¤Ç¤Î¥×¥í¥Õ¥¡¥¤¥ë¤ò·×¬¤¹¤ë¤³¤È¤Ï½ÅÍפǤ¢¤ë¤¬¡¤¸½ºß¥×¥í¥Õ¥¡¥¤¥ë¤òľÀܷ׬¤¹¤ë¼êË¡¤Ï¸ºß¤·¤Æ¤¤¤Ê¤¤¡£¤½¤³¤Ç²æ¡¹¤Ï¡¤Áá°ðÅÄÂç³Ø½êÍ­¤ÎCs-Te¥Õ¥©¥È¥«¥½¡¼¥ÉRF-Gun¤òÍѤ¤¤¿¥ì¡¼¥¶¡¼¥³¥ó¥×¥È¥ó»¶Íð¤Ë¤è¤ë¹â¶¯Å٥졼¥¶¡¼¤Î¥×¥í¥Õ¥¡¥¤¥ë·×¬¼êË¡¤Î³«È¯¤ò³«»Ï¤·¤¿¡£»¶Íð¸÷¶¯Å٤ϥ졼¥¶¡¼¶¯Å٤˰͸¤¹¤ë¤¿¤á¡¤¥ì¡¼¥¶¡¼¸÷¤è¤ê¤â½½Ê¬¤Ë¾®¤µ¤¯¼ý«¤µ¤ì¤¿ÅŻҥӡ¼¥à¤òÁöºº¤·¤Ê¤¬¤é»¶Íð¸÷¶¯ÅÙʬÉÛ¤ò¼èÆÀ¤¹¤ë»ö¤Ç¥ì¡¼¥¶¡¼¥×¥í¥Õ¥¡¥¤¥ë¤òÆÀ¤é¤ì¤ë¤È¤¤¤¦¸¶Íý¤Ç¤¢¤ë(¥ì¡¼¥¶¡¼¥ï¥¤¥ä¡¼¤ÎµÕ¼êË¡)¡£²æ¡¹¤ÏÅŻҥӡ¼¥à¥È¥é¥Ã¥­¥ó¥°¥³¡¼¥ÉGPT¾å¤Ç¡¤¶¯¼ý«ÍÑ¥½¥ì¥Î¥¤¥ÉÅż§ÀФòÍѤ¤¤Æ³Æ¼ï¥Ñ¥é¥á¡¼¥¿¤òºÇŬ²½¤¹¤ë¤³¤È¤Ë¤è¤êÅŻҥӡ¼¥à¥µ¥¤¥º¤ò¦Ò~10¦ÌmÄøÅ٤˼ý«¤Ç¤­¤ë¤³¤È¤ò¼¨¤·¤¿¡£¤Þ¤¿¡¤¼ÂºÝ¤Ë¥Ó¡¼¥à¥é¥¤¥ó¾å¤Ë¶¯¼ý«ÍÑÅż§ÀФò¥¤¥ó¥¹¥È¡¼¥ë¤·¡¤¼ý«¥Ó¡¼¥à¤òÀ¸À®¤·¤¿¡£¤½¤Î¥Ó¡¼¥à¥µ¥¤¥º¤òGAFCHROMIC FILM HD-810¤òÍѤ¤¤Æ¬Äꤷ¡¤¦Ò~20¦ÌmÄøÅ٤μý«ÅŻҥӡ¼¥à¤ò³Îǧ¤·¤¿¡£ ¡¡ËÜȯɽ¤Ç¤Ï¡¤GPT¤Ë¤è¤ë¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¤Î·ë²Ì¡¤¼ÂºÝ¤Î¥Ó¡¼¥à¥µ¥¤¥ºÂ¬Äê·ë²ÌµÚ¤Óº£¸å¤ÎŸ˾¤Ë¤Ä¤¤¤Æ½Ò¤Ù¤ë¡£
 
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SAP110
p.777
ͶÅÅÂβî¤Ë¸þ¤±¤¿¹â½ÐÎÏĶû¥Ñ¥ë¥¹Yb¥ì¡¼¥¶¡¼¤Î³«È¯
Development Of High Power Ultra-short Pulse Ytterbium Laser For Dielectric Accelerator

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¡ûYosuke Matsumura (the University of Tokyo), Mitsuhiro Yoshida, Xiangyu Zhou (KEK), Kazuyoshi Koyama, Mitsuru Uesaka (the University of Tokyo)
 
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¡ûHiromu Tongu, Yoshihisa Iwashita, Toshiyuki Kusuda (ICR), Hitoshi Hayano, Yasuchika Yamamoto (KEK)
 
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SAP117
p.802
ÇÑϧ¤Ë£Ø¥Ð¥ó¥É¥é¥¤¥Ê¥Ã¥¯ÃæÀ­»Ò¸»ÀßÃÖ¤ÇÊ¡ÅçʬÀϸ¦µæ
X-band linac neutron source at Decommissioned Yayoi for Fukushima Analysis

¡û¾åºä ½¼¡ÊÅìµþÂç³ØÂç³Ø±¡¹©³Ø·Ï¸¦µæ²Ê¸¶»ÒÎÏÀ칶¡Ë¡¤Åĵ· ϹÀ¡ÊÅìµþÂç³ØÂç³Ø±¡¹©³Ø·Ï¸¦µæ²Ê¸¶»ÒÎϹñºÝÀ칶¡Ë¡¤ÅÚ¶¶ ¹î¹°¡¤Æ£¸¶ ·ò¡ÊÅìµþÂç³ØÂç³Ø±¡¹©³Ø·Ï¸¦µæ²Ê¸¶»ÒÎÏÀ칶¡Ë¡¤»³ËÜ ¾»»Ö¡Ê¡Ê³ô¡Ë¥¢¥­¥å¥»¥é¡Ë
¡ûMitsuru Uesaka (University of Tokyo, Nuclear Professional School), Kazuhiro Tagi (University of Tokyo, Department of Nuclear Engineering and Management), Katsuhiro Dobashi, Takeshi Fujiwara (University of Tokyo, Nuclear Professional School), Masashi Yamamoto (Accuthera Inc.)
 
¹â®ÃæÀ­»Ò¸»Ï§¡ÈÌïÀ¸¡ÉÇÑ»ßÁ¼Ãָ塢µìϧ¿´ÆâÉô¤Ë¡¢£Ø¥Ð¥ó¥É30MeVÅŻҥ饤¥Ê¥Ã¥¯ÃæÀ­»Ò¸»¤òÀßÃÖ¤·¤Æ¡¢ÃæÀ­»ÒÍý¹©³Ø¸¦µæ¤ò·Ñ³¤¹¤ë¡£ÇÑϧ¸å¸¶»Òϧ»ÜÀߤϲò¾Ã¤¹¤ë¤¬¡¢³Ëʪ¼Á»ÈÍÑ»ÜÀߤǤ¢¤ê³¤±¤ë¡£¤·¤«¤âϧ¼¼¡¢ÉÕ¿ï¼Â¸³¼¼Åù¡¢¿·µ¬¤Î²Ã®´ï¡¦¥ì¡¼¥¶¡¼¡¦Êü¼ÍÀþ¸»¤ÎÀè¿Ê¥Ï¡¼¥É¥¦¥§¥¢¥·¥¹¥Æ¥à¤òƳÆþ¤Ç¤­¤ë¥¹¥Ú¡¼¥¹¤¬¤¢¤ë¡£´û¸¤ÎX¥Ð¥ó¥É(11.424GHz)30MeV~1kWÅŻҥ饤¥Ê¥Ã¥¯¡Ê¸½¥³¥ó¥×¥È¥ó»¶ÍðXÀþ¸»¡Ë¤òϧ¿´ÆâÉô¤Ë°ÜÀߤ¹¤ë¡£¹â½ÐÎÏÍѤËÆþ¼ÍÉô¤ò¡¢ÅŻҽƤò20keVÇ®ÅŻҽơ¦¿Ê¹ÔÇÈ·¿¥Ð¥ó¥Á¥ã¤ËÊѹ¹¤¹¤ë¡£ÃæÀ­»Ò¶¯Å٤ϺÇÂç1012n/sec¡¢ÅŻҥޥ¯¥í¥Ð¥ë¥¹Éý¡Ê¥ß¥¯¥í¥Ñ¥ë¥¹Éý2ps¡Ë¤Ï100ns-1ms, ·«¤êÊÖ¤·50pps¤Ç¤¢¤ë¡£ÍøÍѤˤĤ¤¤Æ¤Ï¤Þ¤º¡¢Ê¡ÅçF1¤Ë¤ª¤±¤ëº£¸å¤ÎdzÎÁ¥Ç¥Ö¥êʬÀϤιâÀºÅÙ²½¤Ë¹×¸¥¤¹¤ë¤Ù¤¯¡¢U, Pu ,Am,CmÅù¤Î³Ë¥Ç¡¼¥¿¤Î¹âÀºÅÙ¼èÆÀ¤ò¹Ô¤¦¡£ÆäËPu¤ÎÃæÀ­»Ò¥¨¥Í¥ë¥®¡¼0.1-10eV¤Ç¤ÎÃÇÌÌÀѤΡ¢¸½¾õ¤Î~5%ÀºÅÙ¤ò¸þ¾å¤µ¤»¤ë¡£Ï§¼¼Æâ5m¡¢ÎÙÀܼ¼¤ò³èÍѤ·¤¿10m¤ÎTOF¥é¥¤¥ó¤òÀ°È÷¤¹¤ë¡£»îÎÁ¤Ï¥°¥í¡¼¥Ö¥Ü¥Ã¥¯¥¹¤ËÀßÃÖ¤·¡¢transmission·×¬¤«¤é¹Ô¤¦¡£¥·¥ó¥Á¥ì¡¼¥·¥ç¥ó¸¡½Ð´ï¤È¤·¤ÆÂçÌÌÀÑCe:LiCAF (̵µ¡·ë¾½¥·¥ó¥Á¥ì¡¼¥¿) ¤òºÎÍѤ·¤Æ¹â´¶ÅÙ²½¡¢ »þ´Öʬ²òǽ100ns¤Î¹â®±þÅú¤ò¼Â¸½¤µ¤»¤ë¡£ÃæÀ­»ÒȯÀ¸¥¿¡¼¥²¥Ã¥È¡¦¥â¥Ç¥ì¡¼¥¿¤Ï100ns¤Îû¥Ñ¥ë¥¹¤ò¼Â¸½¤¹¤ë¤Ù¤¯ºÇŬÀ߷פò¼Â»ÜÃæ¤Ç¤¢¤ë¡£¾­Íè¡¢²Ã®´ï¶îưϧ¡¢¾ÃÌǽèÍý¤Î¤¿¤á¤Î³Ë¥Ç¡¼¥¿Ê¬ÀϤâ»ëÌî¤ËÆþ¤ì¤¿¤¤¡£
 
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SUP001
p.806
STF¤Î¸½¾õ
Status of Superconducting RF Test Facility (STF)

¡ûÁáÌî ¿Î»Ê¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë
¡ûHitoshi Hayano (KEK)
 
The superconducting RF test facility (STF) in KEK is the facility to promote R&D of the International Linear Collider (ILC) cavities and cryomodule. The STF accelerator to promote the Quantum beam project was installed, commissioned and operated in 2011-2012. It consists of the L-band photocathode RF-gun, two superconducting cavities, and the Compton chamber which was combined and utilized 4-mirror laser accumulator. The X-ray generation experiment in the accelerator was successfully performed. Now, the accelerator is under installation of the 12m-cryomodule. All of the STF development done in 2012-2013 will be summarized in this paper.
 
13:00 - 15:00 
SUP002
p.810
°ÛÊýÀ­¤ò»ý¤Ä¸ÇÂΥץ饺¥Þ¤Ë¤è¤ëÅŻҥӡ¼¥à¼ý«
Electron Beam Focusing by an Anisotropic Solid-State Plasma

¡û¾®Êý ¸ü¡¤¿û ¹¸°ì¡¤Ë¡ß· ¸ø´²¡¤¶áÆ£ ¹§Ê¸¡¤ÍÌ ¶âÊö¡¤µÈÅÄ ÍÛ°ì¡ÊºåÂ绺¸¦¡Ë
¡ûAtsushi Ogata, Koichi Kan, Kimihiro Norizawa, Takafumi Kondoh, Jinfeng Yang, Yoichi Yoshida (ISIR, Osaka U.)
 
¥Õ¥§¥à¥ÈÉà - ¥¢¥ÈÉÃÂæ¤Î¥Ð¥ó¥ÁŤò»ý¤ÄÅŻҥӡ¼¥à¤Î¼Â¸½¤¬¶á¤Å¤¤¤Æ¤¤¤ë¡¥¤·¤«¤·Â¿¤¯¤Î¾ì¹ç¥Ð¥ó¥Á·Â¤Ï¥Ð¥ó¥ÁŤè¤ê°ì·åÂ礭¤¤¡¥¤½¤³¤Ç¥Ð¥ó¥ÁĹÄøÅ٤ΥХó¥Á·Â¤ò¼Â¸½¤¹¤ëÊýË¡¤òÄó°Æ¤¹¤ë¡¥µ¤ÂΥץ饺¥Þ¤Ë¤è¤ëÅŻҥӡ¼¥à¼ý«¤Ï¿åÊ¿¡¦¿âľÆóÊý¸þ¤ËƱ»þ¤ËÍ­¸ú¤Ç¡¤Â礭¤Ê¼ý«ÎϤò»ý¤Á¡¤¤¹¤Ç¤Ë FFTB Åù¤Ç¿¤¯¤Î¼ÂÀÓ¤¬¤¢¤ë¡¥¤·¤«¤·¡¤µ¤ÂΥץ饺¥Þ¤ò¹â¿¿¶õ¥Ó¡¼¥à¥é¥¤¥ó¤ËƳÆþ¤¹¤ë¤Î¤Ï´ö¿¤Îµ»½ÑŪ¤Êº¤Æñ¤ò¤È¤â¤Ê¤¦¡¥¤½¤³¤Ç¡¤¸ÇÂΥץ饺¥Þ¤Ë¤è¤ë¥Ó¡¼¥à¼ý«¤ò¸¡Æ¤Ãæ¤Ç¤¢¤ë¡¥¤¿¤À¤·¡¤¥×¥é¥º¥Þ¤Ï²¼µ­¤ÎÌ·½â¤·¤¢¤¦£²¤Ä¤Î¾ò·ï¤ò¤ß¤¿¤µ¤Ê¤±¤ì¤Ð¤Ê¤é¤Ê¤¤¡¥Âè°ì¤Ï¡¤¥×¥é¥º¥Þ¤ÎÈ¿±þ»þ´Ö (¥×¥é¥º¥Þ¼þÇÈ¿ô¤ÎµÕ¿ôÄøÅÙ) ¤¬¥Ð¥ó¥ÁŤè¤ê½½Ê¬¾®¤µ¤¤¤³¤È¤Ç¤¢¤ê¡¤ÂèÆó¤Ï¥Ó¡¼¥à¤Îµ¢´ÔÅÅή¤¬¥Ó¡¼¥à¤Î³°¤òή¤ì¤ë¤³¤È¤Ç¤¢¤ë¡¥ÂèÆó¤Î¾ò·ï¤Ï¥×¥é¥º¥ÞɽÈéĹ (¤ä¤Ï¤ê¥×¥é¥º¥Þ¼þÇÈ¿ô¤ËÈ¿ÈæÎ㤹¤ë) ¤¬¥Ð¥ó¥Á·Â¤è¤êÂ礭¤¤¤³¤È¤òÍ׵᤹¤ë¡¥¤³¤ÎÌ·½â¤Ï¡¤¥Ó¡¼¥à·ÂÊý¸þ¤È¼´Êý¸þ¤Ç°Û¤Ê¤ë¥Ñ¥é¥á¡¼¥¿¤ò»ý¤Ä¸ÇÂΥץ饺¥Þ¤òÍѤ¤¤ë¤³¤È¤Ç²ò¾Ã¤¹¤ë¡¥¶ñÂÎŪ¤Ë¤Ï¡¤¸ÇÂΥץ饹¥Þ¤È¤·¤Æ¹õ±ô¤òÍѤ¤¡¤¤½¤ÎÁؤò¥Ó¡¼¥à¼´¤È¿âľ¤ËÇÛÃÖ¤¹¤ëÊýË¡¤Ç¡¤¸½ºß¼Â¸³¤ò½àÈ÷Ãæ¤Ç¤¢¤ë¡¥
 
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SUP003
p.813
ĶÈù¼å¥é¥¤¥Ê¥Ã¥¯ÅÅ»ÒÀþ¾È¼Í¾ì¤Î¥¤¥á¡¼¥¸¥ó¥°¥×¥ì¡¼¥È¤òÍѤ¤¤¿É¾²Á
Evaluation of the irradiation field of the ultra-low intensity linac electron beams with an Imaging Plate

¡û²¼î· ¹­¸µ¡ÊÂçºåÉÜΩÂç³ØÂç³Ø±¡¡¡¹©³Ø¸¦µæ²Ê¡Ë¡¤Ã«¸ý Îɰ졤±üÅÄ ½¤°ì¡¤µÜ´Ý ¹­¹¬¡¤¾¾±º ´²¿Í¡¤¾®Åè ¿òÉסÊÂçºåÉÜΩÂç³ØÂç³Ø±¡¡¡Êü¼ÍÀþ¸¦µæ¥»¥ó¥¿¡¼¡Ë¡¤Nam Soon-Kwon¡ÊCRI, Kangwon National University, Korea¡Ë
¡ûHiromoto Shimomura (Graduate school of engineering, Osaka Prefecture University), Ryoichi Taniguchi, Shuichi Okuda, Hiroyuki Miyamaru, Hiroto Matsuura, Takao Kojima (Radiation Research Center, Osaka Prefecture University), Soon-kwon Nam (CRI, Kangwon National University, Korea)
 
Ä̾ï¤Î¥é¥¤¥Ê¥Ã¥¯ÅÅ»ÒÀþ¤Ç¤Ï¡¢¹â´¶ÅÙÊü¼ÍÀþÀþÎ̷פÎÆÃÀ­¸¦µæ¤Ê¤É¤Î¤¿¤á¤Ë½½Ê¬Ä㤤¶¯ÅÙ¤ÇÅÅ»ÒÀþ¤ò¾È¼Í¤¹¤ë¤³¤È¤Ï¤Ç¤­¤Ê¤¤¡£¤ï¤ì¤ï¤ì¤Ï¡¢ÂçºåÉÜΩÂç³Ø¤Î16 MeVÅŻҥ饤¥Ê¥Ã¥¯¤òÍѤ¤¤Æ¡¢Ä¶Èù¼åÅÅ»ÒÀþ¤ÎȯÀ¸¤ËÀ®¸ù¤·¡¢¤½¤Î¾È¼Í¾ì¤òÍøÍѤ·¤Æ¼ï¡¹¤Î¥Ó¡¼¥àÍøÍѼ¸³¤ò¹Ô¤Ã¤Æ¤¤¤ë¡£¸½ºß°ÂÄê¤ËÆÀ¤é¤ì¤Æ¤¤¤ëĶÈù¼å¥é¥¤¥Ê¥Ã¥¯ÅÅ»ÒÀþ¤Î1¥Ñ¥ë¥¹Åö¤¿¤ê¤ÎºÇ¾®ÅŲÙÎ̤ϡ¢fC¤ÎÎΰè¤Ç¤¢¤ë¡£Ëܸ¦µæ¤Ç¤Ï¡¢¥¤¥á¡¼¥¸¥ó¥°¥×¥ì¡¼¥È (IP) ¤òÍѤ¤¤Æ¤³¤ÎĶÈù¼åÅÅ»ÒÀþ¤Î¾È¼Í¾ì¤ÎÀþÎÌʬÉÛ¤òɾ²Á¤¹¤ë¤³¤È¤òÌÜŪ¤È¤·¤¿¡£ IP¤Ë¤è¤ëÀþÎÌɾ²Á¤ò¹Ô¤¦¤¿¤á¡¢ÂçºåÉÜΩÂç³Ø¤Î¹»Àµ¤µ¤ì¤¿¦ÃÀþ¾È¼Í¾ì¤òÍøÍѤ·¤¿¡£IP¤Ï¡¢»þ´Ö¤Î·Ð²á¤Ëȼ¤¦¥Õ¥§¡¼¥Ç¥£¥ó¥°¤ÎÆÃÀ­¤ò»ý¤Ä¡£¦ÃÀþ¾È¼Í¸å¤«¤éÆɤ߼è¤ê¤Þ¤Ç¤Î»þ´Ö¤òÊѤ¨¤Æ¤³¤ÎÆÃÀ­¤òÄ´¤Ù¤¿¡£¤½¤·¤Æ¥Õ¥§¡¼¥Ç¥£¥ó¥°¤Î±Æ¶Á¤ò¼õ¤±¤Ê¤¤Æɤ߼è¤ê¤Î¾ò·ï¤òµá¤á¤¿¡£¤Þ¤¿¦ÃÀþ¤Î·ë²Ì¤ÈÈæ³Ó¤·¤Æ¡¢ÅÅ»ÒÀþ¤ËÂФ¹¤ëIP¤Î±þÅú¤òɾ²Á¤·¤¿¡£ Ëܸ¦µæ¤Ç¤Ï¡¢ÅÅ»ÒÀþ¤Î¥¨¥Í¥ë¥®¡¼¤ò 8 MeV¤Ë¤·¡¢1¥Þ¥¯¥í¥Ñ¥ë¥¹Åö¤¿¤ê¤ÎÅŲÙÎ̤òÌó10 pC/pulse¤È¤·¤¿¡£¤³¤ÎÅÅ»ÒÀþ¤Î¶¯Å٤ϡ¢¤¢¤é¤«¤¸¤áÆÃÀ­¤ò¬Äꤷ¤¿Êü¼ÍÀþÀþÎ̷פǬÄꤷ¤Æµá¤á¤¿¡£IP¤òÍѤ¤¤ÆÆÀ¤é¤ì¤¿ÅÅ»ÒÀþ¤ÎÁü¤ò²òÀϤ·¤¿·ë²Ì¡¢Ä¶Èù¼å¥é¥¤¥Ê¥Ã¥¯ÅÅ»ÒÀþ¾È¼Í¾ì¤ÎÆ󼡸µÀþÎÌʬÉÛ¤òÆÀ¤ë¤³¤È¤¬¤Ç¤­¤¿¡£¤³¤Î¾È¼Í¾ì¤Î±þÍѸ¦µæ¤Ë´Ø¤·¤Æ¤âÊó¹ð¤¹¤ë¡£
 
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SUP004
p.817
ͶÅÅÂδÉ¿¥â¡¼¥É¥Æ¥é¥Ø¥ë¥ÄÇȤˤè¤ëÅŻҥӡ¼¥à²Ã®¡¦¸ºÂ®¤Î¸¦µæ
Acceleration and deceleration of electron beam using multimode THz-wave in dielectric tube

¡û¿û ¹¸°ì¡¤ÍÌ ¶âÊö¡¤¾®Êý ¸ü¡¤¶áÆ£ ¹§Ê¸¡¤¿À¸Í ÀµÍº¡¤Ìîß· °ìÂÀ¡¤ÈõÀî ÃÒÍΡ¤Ë¡ß· ¸ø´²¡¤¾®ÎÓ ¿Î¡¤µÈÅÄ ÍÛ°ì¡ÊºåÂ绺¸¦¡Ë¡¤Çë¹Ô Àµ·û¡ÊºåÂç¥ì¡¼¥¶¡¼¸¦¡Ë¡¤¹õÅÄ Î´Ç·½õ¡¤Ë­Àî ¹°Ç·¡Ê»ºÁí¸¦¡Ë
¡ûKoichi Kan, Jinfeng Yang, Atsushi Ogata, Takafumi Kondoh, Masao Gohdo, Itta Nozawa, Tomohiro Toigawa, Kimihiro Norizawa, Hitoshi Kobayashi, Yoichi Yoshida (ISIR, Osaka Univ.), Masanori Hangyo (ILE, Osaka Univ.), Ryunosuke Kuroda, Hiroyuki Toyokawa (AIST)
 
ºåÂ绺¸¦¤Ç¤Ï¡¢¥ì¡¼¥¶¡¼¥Õ¥©¥È¥«¥½¡¼¥ÉRFÅŻҽƥ饤¥Ê¥Ã¥¯¤òƳÆþ¤·¡¢¥Õ¥§¥à¥ÈÉåѥ륹¥é¥¸¥ª¥ê¥·¥¹¤Î³«È¯¤ò¹Ô¤Ã¤Æ¤¤¤ë¡£Æ±»þ¤Ë¡¢¥Ñ¥ë¥¹¥é¥¸¥ª¥ê¥·¥¹»þ´Öʬ²òǽ¤ò¸þ¾å¤¹¤ë¤¿¤á¡¢½¾Íè¤È¤Ï°Û¤Ê¤ëÅŻҥӡ¼¥à¿ÇÃǼêË¡³«È¯¤Î°ì´Ä¤È¤·¤Æ¡¢¥³¥Ò¡¼¥ì¥ó¥È¥Á¥§¥ì¥ó¥³¥ÕÊü¼Í(CCR, coherent Cherenkov radiation)¤Ë¤Ä¤¤¤Æ¸¦µæ¤ò¹Ô¤Ã¤Æ¤­¤¿¡£CCR¤È¤Ï¡¢ÅŻҥӡ¼¥à¤¬È¯À¸¤¹¤ë¥Á¥§¥ì¥ó¥³¥ÕÊü¼Í¤òͶÅÅÂδÉÃæ¤ËÊĤ¸¹þ¤á¤ë¤ÈƱ»þ¤Ë¡¢Â¿¥â¡¼¥É¤Î¥Æ¥é¥Ø¥ë¥ÄÇȤòȯÀ¸¤¹¤ëÊýË¡¤Ç¤¢¤ë¡£¤½¤³¤Ç¡¢Ëܸ¦µæ¤Ç¤Ï¡¢CCR¤Î¿¥â¡¼¥É¥Æ¥é¥Ø¥ë¥ÄÇȤòÍѤ¤¤¿ÅŻҥӡ¼¥à²Ã®¡¦¸ºÂ®¤Ë¤Ä¤¤¤Æ¿ôÃÍ·×»»¤Ë¤è¤ë¸¦µæ¤ò¹Ô¤Ã¤¿¡£
 
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SUP005
p.820
SACLA¤Ë¤ª¤±¤ëÀþ·Á²Ã®´ïÌÏ·¿¤Ë´ð¤Å¤¯ÅŻҥӡ¼¥àµ°Æ»¤Î¼«Æ°ÊäÀµ
Orbit correction of the electron beam using the linear accelerator model at SACLA

¡ûĹëÀî ÂÀ°ì¡¤ÅÄ¿¬ ÂÙÇ·¡Ê¥¹¥×¥ê¥ó¥°¥¨¥¤¥È¥µ¡¼¥Ó¥¹(³ô)¡Ë¡¤ÅÏÀî Ϲ¸¡¤¸¶ Å°¡¤ÅÄÃæ ¶Ñ¡ÊÍý¸¦ Êü¼Í¸÷²Ê³ØÁí¹ç¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûTaichi Hasegawa, Yasuyuki Tajiri (SPring-8 Service Co., Ltd.), Kazuaki Togawa, Toru Hara, Hitoshi Tanaka (RIKEN SPring-8 Center)
 
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Construction Status of the SuperKEKB Rings

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Kazunori Akai, ¡ûHaruyo Koiso (KEK)
 
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EXAMINATION OF MAGNET ALIGNMENT POLICY FOR SUPERKEKB MR

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¡ûAkio Morita, Haruyo Koiso, Yukiyoshi Ohnishi, Katsunobu Oide, Hiroshi Sugimoto (KEK)
 
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¡ûMasataka Mizugaki, Yuya Koshiba, Kazuyuki Sakaue, Masakazu Washio (RISE), Toshikazu Takatomi, Junji Urakawa (KEK), Ryunosuke Kuroda (AIST)
 
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¡ûMitsuhiro Yoshida, Takuya Natsui, Xiangyu Zhou, Yujiro Ogawa, Hiroshi Sugimoto, Naoko Iida, Lei Zang, Masanori Sato (KEK)
 
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p.837
ERL»î¸³²Ã®´ïÆþ¼ÍÉô¤Ë¤ª¤±¤ë½ÄÊý¸þ¥Ó¡¼¥àÀ­Ç½É¾²Á
Longitudinal beam performance measurement at Compact-ERL injector

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¡ûYosuke Honda, Tsukasa Miyajima (KEK), Commissioning_group Compact_erl (KEK/JAEA/Hiroshima university)
 
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ERL»î¸³²Ã®´ïÆþ¼ÍÉô¤Ë¤ª¤±¤ë²£Êý¸þ¥Ó¡¼¥àÀ­Ç½É¾²Á
Transverse beam performance measurement at Compact-ERL injector

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¡ûYosuke Honda, Tsukasa Miyajima (KEK), Commissioning_group Compact_erl (KEK/JAEA/Hiroshima universityh)
 
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Ferrite property effects on a fast kicker magnet

¡ûÜè ùî·³¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë¡¤Ê¡²¬ æÆÂÀ¡ÊÃÞÇÈÂç³Ø¡Ë¡¤ÀÐ°æ ¹±¼¡¡¤¿ùËÜ ÂóÌé¡Ê¡¡¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë
¡ûKuanjun Fan (High Energy Accelerator Research Organization), Shota Fukuoka (University of tsukuba), Koji Ishii, Takuya Sugimota (High Energy Accelerator Research Organization)
 
Nickel Zinc ferrite materials are widely used in high speed pulse magnetic devices. The J-PARC main ring employs Ni-Zn ferrite kicker magnets in both fast extraction system and injection system. In order to generate high speed magnetic field, the magnetization rate in the ferrite is very high, which might cause magnetic losses due to the induced eddy current. In addition, kicker magnets also contribute significant coupling impedance to J-PARC MR, which is determined by the frequency dependent material property of complex permeability. Thus, the ferrite material properties need to be studied thoroughly to improve the kicker performance. A transmission type kicker that can generate arbitrary waveform of kicker field is being developed for the injection error correction. It requires very fast magnetization rate, which imposes severe demands on the ferrite properties. In order to estimate the effects of ferrite properties, 3D numerical studies are carried out. Different ferrite materials are studied to optimize the design. This paper gives the calculation results of coupling impedance, image currents and power loss of the kicker magnet.
 
13:00 - 15:00 
SUP013
p.848
Íý¸¦AVF¥µ¥¤¥¯¥í¥È¥í¥ó±¿Å¾¤Î¸½¾õÊó¹ð
Status report of the operation of the RIKEN AVF cyclotron

·îµï ·û½Ó¡¤Ê¡Âô À»»ù¡¤ßÀÃç À¿¡¤ÀÐÀî À¹¡¤¾®¹â ¹¯¾È¡¤¾®ÎÓ À¶»Ö¡¤¾®»³ μ¡¤Ãç¼ Éð»Ö¡¤À¾ÅÄ Ì­¡¤À¾Â¼ À¿¡¤¼ÆÅÄ ½çæÆ¡¤·îµï ·û½Ó¡¤ÌðÉÚ °ì¿µ¡Ê½»½Å²Ã®´ï¥µ¡¼¥Ó¥¹¡Ë¡¤¡ûºäËÜ À®É§¡¤²ÃÀ¥ ¾»Ç·¡¤±üÌî ¹­¼ù¡¤±Æ»³ Àµ¡¤¾å³À³° ½¤°ì¡¤·§Ã« ·Ë»Ò¡¤ÃæÀî ¹§½¨¡¤¹þ»³ Èþºé¡¤¿ÜÅÄ ·ò»Ì¡¤Æ⻳ ¶Ç¿Î¡¤»³ÅÄ °ìÀ®¡¤Ä¹À¥ À¿¡¤Ê¡À¾ Ī¾°¡¤Æ£´¬ Àµ¼ù¡¤¿¿²È Éð»Î¡¤ÅÏîµ ´Ä¡¤ÅÏîµ Íµ¡ÊÍý¸¦¿Î²Ê¥»¥ó¥¿¡¼¡Ë¡¤»³²È ¾¹°ì¡¤Âç¾ë ¹¬¸÷¡ÊÅìÂçCNS¡Ë
Noritoshi Tsukiori, Seiji Fukuzawa, Makoto Hamanaka, Shigeru Ishikawa, Yasuteru Kotaka, Kiyoshi Kobayashi, Ryo Koyama, Takeshi Nakamura, Minoru Nishida, Makoto Nishimura, Junsho Shibata, Noritoshi Tsukiori, Kazuyoshi Yadomi (SHI ACCELERATOR SERVICE Ltd.), ¡ûNaruhiko Sakamoto, Masayuki Kase, Hiroki Okuno, Tadashi Kageyama, Osamu Kamigatio, Keiko Kumagai, Takahide Nakagawa, Misaki Komiyama, Kenji Suda, Akito Uchiyama, Kazunari Yamada, Makoto Nagase, Nobuhisa Fukunishi, Masaki Fujimaki, Takeshi Maie, Tamaki Watanabe, Yutaka Watanabe (NISHINA CENTER, RIKEN), Shoichi Yamaka, Yukimitsu Oshiro (CNS, UT)
 
Íý¸¦AVF¥µ¥¤¥¯¥í¥È¥í¥ó(K70)¤Î±¿Å¾»þ´Ö¤Ï¡¢Ç¯´Ö£³£°£°£°»þ´Ö¤ò±Û¤¨¤ë¡£Ä̾RIBF¤Ë¤ª¤¤¤ÆÈæ³ÓŪ·Ú¤¤¥¤¥ª¥ó¤ÎÆþ¼Í´ï¤È¤·¤ÆÍѤ¤¤é¤ì¤ë¤Û¤«¡¢CRIB¤äRIÀ½Â¤¤Î¤¿¤áñÆȤǤβî¤â¹Ô¤Ã¤Æ¤¤¤ë¡£ËÜÊó¹ð¤Ç¤Ï¡¢¤³¤Î£±Ç¯¤Î±¿Å¾¼ÂÀӡʲîγ»Ò¡¢±¿Å¾»þ´Ö¤Ê¤É¡Ë¤Î¤Û¤«¡¢Ï·µà²½¤Ë¤è¤ë¥È¥é¥Ö¥ë¤ä¤½¤Î½¤Íý¤Ë¤Ä¤¤¤Æ½Ò¤Ù¤ë¡£¤Þ¤¿RIÀ½Â¤¤Ë¶¡¤¹¤ë¤¿¤áAVFñÆȱ¿Å¾¤Ç¤ÎÂ綯ÅÙ¤ÎÍÛ»Ò¡¢½ÅÍÛ»Ò¥Ó¡¼¥à¤Î²Ã®¤Ê¤É¡¢¹âÅÙ²½¤Î¼è¤êÁȤߤˤĤ¤¤ÆÊó¹ð¤¹¤ë¡£
 
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p.852
¶å½£Âç³ØFFAG²Ã®´ï¤Î¥Ó¡¼¥à¥³¥ß¥Ã¥·¥ç¥Ë¥ó¥°¤Î¸½¾õ
Present status of beam commissioning of FFAG accelerator at Kyushu University

¡ûÊƼ Í´¼¡Ïº¡¤Í­ÇÏ ½¨É§¡¤ÃÓÅÄ ¿­Éס¤µû½» ͵²ð¡¤Àж¶ ·òÆó¡¤ÁêÎÉ ·ò»ê¡¤ÌîϤ ůÉס¤À§±Ê Ãé»Ö¡¤°ð²¬ ͪ»Î¡¤µÜ²­ µ®»Ë¡¤²­ÅÄ ±Ñ»Ë¡Ê¶å½£Âç³Ø¡Ë¡¤Ã滳 µ×µÁ¡¤¹âÌÚ ¾¼¡ÊKEK¡Ë¡¤¿¹ µÁ¼£¡ÊµþÅÔÂç³Ø¸¶»Òϧ¼Â¸³½ê¡Ë
¡ûYujiro Yonemura, Hidehiko Arima, Nobuo Ikeda, Yusuke Uozumi, Kenji Ishibashi, Kenshi Sagara, Tetsuo Noro, Tadashi Korenaga, Yushi Inaoka, Takashi Miyaoki, Hidefumi Okita (Kyushu University), Hisayoshi Nakayama, Akira Takagi (KEK), Yoshiharu Mori (KURRI)
 
¶å½£Âç³Ø²Ã®´ï¡¦¥Ó¡¼¥à±þÍѲʳإ»¥ó¥¿¡¼¤Ç¤Ï¡¢¥Ó¡¼¥à¤òÍøÍѤ·¤¿¶µ°é¤ª¤è¤Ó¸¶»Ò³Ë²Ê³Ø¡¢°åÎűþÍÑ´ðÁòʳØÅù¤Ë¤ª¤±¤ë¥Ó¡¼¥à±þÍѸ¦µæ¤ò¿ä¿Ê¤¹¤ë¤³¤È¤òÌÜŪ¤È¤·¤Æ¡¢FFAG²Ã®´ï¤ò¼ç²Ã®´ï¤È¤·¤¿²Ã®´ï»ÜÀߤÎÀ°È÷¤¬¿Ê¤á¤é¤ì¤Æ¤¤¤ë¡£Ëܲî´ï»ÜÀߤϡ¢ÍÛ»Ò¥µ¥¤¥¯¥í¥È¥í¥ó¤ÈFFAG ²Ã®´ï¤Ë¤è¤Ã¤Æ¹½À®¤µ¤ì¤Æ¤¤¤ë¡£¥µ¥¤¥¯¥í¥È¥í¥ó¤«¤éÆþ¼Í¤µ¤ì¤¿10 MeV¤ÎÍÛ»Ò¥Ó¡¼¥à¤ÏFFAG²Ã®´ï¤Ë¤è¤Ã¤Æ125 MeV¤Þ¤Ç²Ã®¤µ¤ì¡¢²Ã®´ï³°¤Ø¼è¤ê½Ð¤µ¤ì¤ë¡£Ê¿À®23ǯ12·î¤«¤é¼ç¥ê¥ó¥°¤Î¥Ó¡¼¥à¥³¥ß¥Ã¥·¥ç¥Ë¥ó¥°¤¬³«»Ï¤µ¤ì¡¢Ê¿À®24ǯ2·î¤ËÆþ¼Í¥¨¥Í¥ë¥®¡¼¤Ë¤ª¤¤¤Æ¥Ó¡¼¥à¤Î¼þ²ó¤ò³Îǧ¤·¤¿¡£Á°Ç¯Å٤ޤǤ˥µ¥¤¥¯¥í¥È¥í¥ó¤Î¥Ñ¥ë¥¹¥¤¥ª¥ó¸»¡¢Â¿½ÅÆþ¼ÍË¡¤òÍѤ¤¤¿¥Ó¡¼¥àÆþ¼Í¥·¥¹¥Æ¥à¡¢¹â¼þÇȲî¶õƶ¤Î±¿Å¾Ä´À°¡¢¤ª¤è¤Ó¡¢¥Ó¡¼¥à¥×¥í¥Õ¥¡¥¤¥ë¥â¥Ë¥¿¡¼¤ÎÀ°È÷¤¬´°Î»¤·¤¿¡£¸½ºß¡¢¹â¼þÇȲî¶õƶ¤ò¼ç¥ê¥ó¥°¤ØÁȤ߹þ¤ß¡¢¥Ó¡¼¥à¼è½Ð¤·¤Ë¸þ¤±¤¿¥Ó¡¼¥à²Ã®¼Â¸³¤¬¹Ô¤ï¤ì¤Æ¤¤¤ë¡£ËÜȯɽ¤Ç¤Ï¡¢FFAG²Ã®´ï¤Î¥Ó¡¼¥à¥³¥ß¥Ã¥·¥ç¥Ë¥ó¥°¤Î¸½¾õ¡¢¶ñÂÎŪ¤Ë¤ÏÊĵ°Æ»¤ÎÏĤß(COD)¤ä¥Ù¡¼¥¿¥È¥í¥ó¥Á¥å¡¼¥ó¤Î¬Äê·ë²Ì¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£¤Þ¤¿¡¢¹â¼þÇȲî¶õƶÍѼ§µ¤¥·¡¼¥ë¥É¡¢CODÊäÀµÅż§ÀС¢¥Á¥å¡¼¥óÊäÀµ¼§¶Ë¡¢¥Ó¡¼¥à°ÌÃÖ¥â¥Ë¥¿¡¼¡¢À©¸æ¥·¥¹¥Æ¥àÅù¤Î³«È¯¾õ¶·¤Ë¤Ä¤¤¤Æ¾ÜºÙ¤òÊó¹ð¤¹¤ë¡£
 
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SUP015
p.855
J-PARC MainRing¡¡¹âÄ´ÇȽžö¤Ë¤è¤ëBunching Factor¤Î²þÁ±
The Bunching Factor improvement by superposition of higer harmonic

¡û¸¶ ·½¸ã¡¤¸Þ½½Íò ¿Ê¡¤Â翹 Àé¹­¡¤¾®´Ø Ã顤º´Æ£ Íΰì¡Ê¹â¥¨¥Í¸¦¡Ë
¡ûKeigo Hara, Susumu Igarashi, Chihiro Ohmori, Tadashi Koseki, Yoichi Sato (KEK)
 
J-PARC¤ÏÂ綯ÅÙ¤ÎÍÛ»Ò¥Ó¡¼¥à¤ò¶¡µë¤¹¤ë²Ã®´ï»ÜÀߤǤ¢¤ë¡£ËÜȯɽ¤Ç¤Ïlinac¡¢RCS¡¢MR¤È¤¤¤¦J-PARC²Ã®´ï·²¤ÎÃæ¤ÇMR¤Ë´Ø¤·¤Æ¡¢Æþ¼Íľ¸å¤Î¥Ð¥ó¥Á¥ó¥°¥Õ¥¡¥¯¥¿¡¼²þÁ±¤Ë¤è¤Ã¤Æ¶õ´ÖÅŲٸú²Ì¤ò´ËϤ¹¤ë¤¿¤á¤Ë¥Ó¡¼¥à¥·¥ß¥å¥ì¡¼¥·¥ç¥ó·×»»¤ò¹Ô¤Ã¤¿·ë²Ì¤ò¼¨¤¹¡£ ¸½ºßRCS¤Î½ÐÎϤ¬800 kW(MR 530 kWÁêÅö)¤Ë¤Ê¤Ã¤¿¾ì¹ç¤òÁÛÄꤷ¤ÆMR¤Ç¤ÎRFÅÅ°µ¥Ñ¥¿¡¼¥ó¤Ë¤Ä¤¤¤Æ¥·¥ß¥å¥ì¡¼¥·¥ç¥ó·×»»¤ò¹Ô¤Ã¤Æ¤¤¤ë¡£Åö½é¤ÏRCS¼è¤ê½Ð¤·»þ¤ÎBunching Factor(B.F.)¤¬É¬ÍפȤµ¤ì¤Æ¤¤¤ë0.3(bunchĹ 300 ns)¤ÎʬÉÛ¤ò¤â¤È¤Ë·×»»¤ò¹Ô¤¤Îɹ¥¤Ê·ë²Ì¤¬ÆÀ¤é¤ì¤Æ¤¤¤¿¡£¤·¤«¤·¤Ê¤¬¤é¸½ºß¤ÎRCS¤Î¼è½Ð¤·¥­¥Ã¥«¡¼¤Ç¤ÏB.F.¤¬0.2(bunchĹ 200 ns)¤Þ¤Ç¤¬¼è½Ð¤·¤Î¸Â³¦¤Ç¤¢¤ë¤¿¤á¤³¤Î¤è¤¦¤ÊʬÉÛ¤ËÂФ·¤Æ¤Î¥·¥ß¥å¥ì¡¼¥·¥ç¥ó·×»»¤ò¹Ô¤¤ºÇŬ¤ÊRFÅÅ°µ¥Ñ¥¿¡¼¥ó¤¬¤Ê¤¤¤«¸¡Æ¤¤·¤¿¡£¤Ê¤ª¡¢MR¤ÎÆþ¼Í¥­¥Ã¥«¡¼¤¬¸½ºßÊú¤¨¤Æ¤¤¤ë¥Ñ¥ë¥¹¤ÎΩ¤Á¾å¤¬¤ê¤È¥ê¥ó¥®¥ó¥°¤ÎÌäÂê¤Ï¡¢¸½ºß¸¡Æ¤¤·¤Æ¤¤¤ëÊä½õ¥­¥Ã¥«¡¼¤Ë¤è¤ê²þÁ±¤Ç¤­¤ë¤³¤È¤òÁ°Äó¤È¤·¤Æ¤¤¤ë¡£·ë²Ì¡¢´ðËÜÇÈ¡¢2¼¡¹âÄ´ÇȤ˲䨤Ƥµ¤é¤Ë¹â¼¡¤Î¹âÄ´ÇȤò²Ã¤¨¤ë¤³¤È¤Ë¤è¤êB.F.¤òÆþ¼Íľ¸å¤«¤é¹â¤¤¾õÂÖ¤ËÊݤÁ¡¢¥Ó¡¼¥à¥í¥¹¤òÄ㸺¤Ç¤­¤ëRFÅÅ°µ¥Ñ¥¿¡¼¥ó¤òÆÀ¤ë¤³¤È¤¬¤Ç¤­¤¿¡£ËÜȯɽ¤Ç¤Ï¤³¤Î·ë²Ì¤Ë¤Ä¤¤¤Æ½Ò¤Ù¤ë¡£
 
13:00 - 15:00 
SUP016
p.858
J-PARC¥ê¥Ë¥¢¥Ã¥¯¥Á¥ç¥Ã¥Ñ¥·¥¹¥Æ¥à¤Î³«È¯
Development of RF chopper system at J-PARC Linac

¡ûÊ¿Ìî ¹Ì°ìϺ¡¤°ËÆ£ ¿ò¡¤¶áÆ£ ¶³¹°¡¤¼Äºê ¿®°ì¡¤ÀéÂå ±Ù»Ê¡¤»°±º ¾¼É§¡¤¿¹²¼ Âî½Ó¡Ê¸¶»ÒÎϵ¡¹½¡Ë¡¤ÃÓ¾å ²íµª¡¤µ×ÊÝÅÄ ¿Æ¡¤¿ù¼ ¹â»Ö¡¤ÆâÆ£ ÉÙ»Îͺ¡¤ÆîÌÐ º£Ä«Íº¡¤Êý »Ö¹â¡¤Ê¡°æ ͤ¼£¡¤Æó¥ÄÀî ·òÂÀ¡¤´ÝÅÄ Êþ»Ë¡¤µÜÈø ÃҾϡʹ⥨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë
¡ûKoichiro Hirano, Takashi Itou, Yasuhiro Kondo, Shinichi Shinozaki, Etsuji Chishiro, Akihiko Miura, Takatoshi Morishita (JAEA), Masanori Ikegami, Chikashi Kubota, Takashi Sugimura, Fujio Naito, Kesao Nanmo, Zhigao Fang, Yuji Fukui, Kenta Futatsukawa, Tomofumi Maruta, Tomoaki Miyao (KEK)
 
J-PARC¥ê¥Ë¥¢¥Ã¥¯¤Î±¿Å¾¥Ñ¥é¥á¡¼¥¿¤Ï¡¢¥Ô¡¼¥¯ÅÅή17£íA¡¢¥Þ¥¯¥í¥Ñ¥ë¥¹Éý500¦Ìs¡¢·«¤êÊÖ¤·25Hz¡¢¥Ó¡¼¥à¥¨¥Í¥ë¥®¡¼181MeV¤Ç¤¢¤ë¡£¥Þ¥¯¥í¥Ñ¥ë¥¹¥Ó¡¼¥à¤Ï¡¢RFQ²¼Î®¤ÎMEBTÎΰè¤Ë¤¢¤ëRF¥Á¥ç¥Ã¥Ñ¶õƶ¤ÎÅų¦¤Ë¤è¤Ã¤Æ¡¢¤½¤Î°ìÉô¤¬½³¤ê¤À¤µ¤ì¡¢¶û·Á¹½Â¤¤ò»ý¤Ä¥Ó¡¼¥à¤ËÀ°·Á¤µ¤ì¤ë¡£¤³¤ÎÀ°·Á¤µ¤ì¤¿¥Ó¡¼¥à¤Ï¡¢¥Ñ¥ë¥¹Éý600ns¤ÎÃæ´Ö¥Ñ¥ë¥¹¤¬1066ns¤Î´Ö³Ö¤Çʤó¤À¹½Â¤¤Ç¤¢¤ë¡£°ìÊý¡¢½³¤ê¤À¤µ¤ì¤¿¥Ó¡¼¥à¤Ï¡¢RF¥Á¥ç¥Ã¥Ñ¶õƶ¤«¤éÌó70cmÎ¥¤ì¤¿¾ì½ê¤Ë¤¢¤ë¥¹¥¯¥ì¡¼¥Ñ¤ËÉé²Ù¤µ¤ì¤ë¡£º£¸å¡¢¥¤¥ª¥ó¸»¡¢µÚ¤Ó¡¢RFQ¤Î²þ¤¡¢Ê¤Ӥˡ¢²Ã®´É¤ÎÁýÀߤò¹Ô¤¤¡¢¥Ó¡¼¥àÅÅή¤ò50£íA¡¢¥Ó¡¼¥à¥¨¥Í¥ë¥®¡¼¤ò400MeV¤ËÁý¶¯¤¹¤ë·×²è¤Ç¤¢¤ë¡£¥Ó¡¼¥àÅÅή¤ò50mA¤ËÁý²Ã¤¹¤ë¤È¡¢¥Ó¡¼¥à¤¬¸½¾õ¤Î¥Á¥ç¥Ã¥Ñ¶õƶ¤ÎÅŶˤä¥Ó¡¼¥à¥Ñ¥¤¥×¤ËÅö¤¿¤ë¥·¥ß¥å¥ì¡¼¥·¥ç¥ó·ë²Ì¤¬ÆÀ¤é¤ì¤Æ¤¤¤ë¡£¤Þ¤¿¡¢¥¹¥¯¥ì¡¼¥Ñ¤Î»½ý¤¬·üÇ°¤µ¤ì¤ë¡£¤½¤³¤Ç¡¢¥Ó¡¼¥àÅÅή50mA ¤ËÂбþ¤·¤¿MEBT¥Ó¡¼¥à¥é¥¤¥ó¤Ë²þ¤¤¹¤ë·×²è¤Ç¤¢¤ë¡£º£²ó¤Ï¡¢¥Á¥ç¥Ã¥Ñ¶õƶ¤ä¥¹¥¯¥ì¡¼¥ÑÅù¤Ë´Ø¤¹¤ë¥Á¥ç¥Ã¥Ñ¥·¥¹¥Æ¥à¤Î²þ¤¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£
 
13:00 - 15:00 
SUP017
p.862
J-PARC LINAC 3MeV ¥Ó¡¼¥à¥¹¥¯¥ì¡¼¥Ñ¡¼¤Î³«È¯
Development of a 3MeV beam scraper for the J-PARC Linac

¡û¿ù¼ ¹â»Ö¡Ê¹â¥¨¥Í¡Ë¡¤Ê¿Ìî ¹Ì°ìϺ¡ÊÆüËܸ¶»ÒÎϸ¦µæ³«È¯µ¡¹½ ¡Ë¡¤ÆîÌÐ º£Ä«Íº¡¤·ª¸¶ ½Ó°ì¡Ê¹â¥¨¥Í¡Ë
¡ûTakashi Sugimura (KEK), Koichiro Hirano (JAEA), Kesao Nanmo, Toshikaz Kurihara (KEK)
 
J-PARC¤Ç¤Ï¶¡Íѱ¿Å¾¤Î¥Ó¡¼¥à¶¯ÅÙ¤ÎÁý¶¯¤Ë¼è¤êÁȤó¤Ç¤ª¤ê¡¢LINAC¤Ç¤Ï400 MeV¡¢50 mA¤Ø¤Î¥Ó¡¼¥àÁý¶¯¤Î¼Â»Ü¤ò·×²è¤·¤Æ¤¤¤ë¡£ ¤Ê¤«¤Ç¤â¡¢ÅÅή¤ÎÁý¶¯¤Ë¤Ä¤¤¤Æ¤Ï¡¢¥¤¥ª¥ó¸»¡¢RFQ¤Î´¹Áõ¤Î½àÈ÷¤ò¿Ê¤á¤Æ¤ª¤ê¡¢¤Þ¤µ¤Ë¥Ó¡¼¥à¤ÎºÇ½é¤ÎÉôʬ¤«¤éÁý¶¯¤¹¤ë¤³¤È¤Ë¤Ê¤ë¡£ ËÜÊó¹ð¤Î¥Ó¡¼¥à¥¹¥¯¥ì¡¼¥Ñ¡¼¤ÏRFQ¤Î²¼Î®¤ËÀßÃÖ¤¹¤ë¤â¤Î¤Ç¡¢¤½¤³¤è¤ê¤µ¤é¤Ë²¼Î®¤Ë¤¢¤ë DTL°Ê¹ß¤Î²Ã®´ï¤Ë¤ª¤¤¤Æ²Ã®¤¹¤Ù¤­¤Ç¤Ï¤Ê¤¤¥Ó¡¼¥à¤ò¥¹¥È¥Ã¥×¤µ¤»¤ë¤Î¤Ë½½Ê¬¤ÊÀ­Ç½¤ò»ý¤¿¤Ê¤¯¤Æ¤Ï¤Ê¤é¤Ê¤¤¡£ ¸½¾õ¤Ç¤ÏúÁÇÊ£¹çºà¤òÍѤ¤¤¿¥¹¥¯¥ì¡¼¥Ñ¡¼¤¬ÀßÃÖ¤µ¤ì¤Æ¤ª¤ê¡¢¥Ó¡¼¥à¶¡Íѱ¿Å¾¤Î¤¿¤á¤Ë²ÔƯÃæ¤Ç¤¢¤ë¤¬¡¢ ¸½ºß¤Î20 mAÄøÅ٤Υӡ¼¥àÅÅή¤Ç¤¹¤é¡¢¤¹¤Ç¤ËɽÌ̤λÌפ¬´Ñ»¡¤µ¤ì¤Æ¤ª¤ê¡¢ 50 mA¤Î¥Ó¡¼¥àÅÅή¤Ç¤Î±¿Å¾»þ¤ËÂѤ¨¤é¤ì¤ë¥¹¥¯¥ì¡¼¥Ñ¡¼¤Î³«È¯¤¬É¬ÍפǤ¢¤ë¡£ ¤³¤Î¤¿¤á¡¢¥¹¥¯¥ì¡¼¥ÑºàÎÁ¤Ë´Ø¤·¡¢ºàÎÁ¤Î¸¡Æ¤¤ò¹Ô¤¦¤È¶¦¤Ë¡¢¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¥³¡¼¥ÉAnsys¤òÍѤ¤¤¿ÅÁÇ®¥·¥ß¥å¥ì¡¼¥·¥ç¥ó¤ò¼Â»Ü¤·¤Æ¤¤¤ë¡£ º£²ó¤Ï¡¢¥Ó¡¼¥à¥¹¥¯¥ì¡¼¥Ñ¡¼¤ÎÇ®ÅÁƳ²òÀϤˤĤ¤¤ÆÊó¹ð¤¹¤ë¡£
 
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SUP018
p.867
J-PARCÀþ·Á²Ã®´ï¤Î50mA/400MeV¥¢¥Ã¥×¥°¥ì¡¼¥É¤Î¤¿¤á¤Î¥¨¥é¡¼¥¹¥¿¥Ç¥£
Error studies for J-PARC linac upgrade to 50mA/400MeV

¡ûέ ͦ¡¤ÃÓ¾å ²íµª¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë
¡ûYong Liu, Masanori Ikegami (KEK)
 
The J-PARC linac is to be upgraded from present 181 MeV to 400 MeV and the peak current to 50mA. This paper presents results of machine errors studies performed with 3D simulation code IMPACT. It is intended to validate the design, to predict possible beam situations at the RCS injection point and to be helpful for the coming commissioning.
 
13:00 - 15:00 
SUP019
p.870
¥µ¥¤¥é¥È¥í¥óCX2004X¤Î½é´ü¸¡ºº
Initial Test of Thyratron CX2004X

¡û¿û¾Â ÏÂÌÀ¡¤ÉÙ³ß ÃÒ¿Í¡¤¶âÀµ Îѷסʸ¶»ÒÎϵ¡¹½ J-PARC¡Ë
¡ûKazuaki Suganuma, Tomohito Togashi, Michikazu Kinsho (JAEA J-PARC)
 
3GeV¥·¥ó¥¯¥í¥È¥í¥ó¤ÏJ-PARC»ÜÀߤòÍøÍѤ·¸¦µæ¤ò¿Ê¤á¤ë¥æ¡¼¥¶¡¼¤Ë¡¢°ÂÄê¤Ë¡¢¤è¤êŤ¤»þ´Ö¡¢ÍÛ»Ò¥Ó¡¼¥à¤ò¶¡µë¤¹¤ëÀÕ̳¤¬¤¢¤ë¡£¤·¤«¤·¤Ê¤¬¤é3GeV¥·¥ó¥¯¥í¥È¥í¥ó¤Î¥­¥Ã¥«¡¼Åż§ÀÐÅŸ»¤Ë¤ª¤¤¤Æ»ÈÍѤ·¤Æ¤¤¤ë¥µ¥¤¥é¥È¥í¥ó¤Î¼÷Ì¿µÚ¤ÓÆü¡¹¤Î¥á¥ó¥Æ¥Ê¥ó¥¹¤Ë¤è¤ë¥Ó¡¼¥à¶¡µë¤ÎµÙ»ß¤¬¡¢J-PARC»ÜÀßÁ´ÂΤÎϢ³±¿Å¾¤ÎÀ©¸Â¤È¤Ê¤ê¤¦¤ë·üÇ°¤¬¤¢¤ë¡£¤¿¤È¤¨¤Ð¡¢¸½ºß3GeV¥·¥ó¥¯¥í¥È¥í¥ó¤Î¥­¥Ã¥«¡¼Åż§ÀÐÅŸ»¤Ç»ÈÍÑÃæ¤Î¥µ¥¤¥é¥È¥í¥óCX1193C¤Ï¡¢°ÂÄꤷ¤¿Æ°ºî¤ò°Ý»ý¤¹¤ë¤¿¤á¤Ë¡¢¤Þ¤¿¡¢Ä¹»þ´Ö¤Î»ÈÍѤò¼Â¸½¤¹¤ë¤¿¤á¡¢¤ª¤è¤½1000»þ´ÖËè¤Ë¡¢¥æ¡¼¥¶¡¼¤Ø¤Î¥Ó¡¼¥à¤Î¶¡µë±¿Å¾¤òµÙ»ß¤·¡¢¥µ¥¤¥é¥È¥í¥ó¤ÎÄ´À°±¿Å¾¤ò¹Ô¤Ã¤Æ¤¤¤ë¡£²æ¡¹¤Ï¡¢¥µ¥¤¥é¥È¥í¥ó¤ÎÆ°ºî¤Ëµ¯°ø¤»¤º¤Ë¡¢Ï¢Â³¤·¤¿¥Ó¡¼¥à±¿Å¾¤ò¼Â¸½¤¹¤¿¤á¡¢¿·¤·¤¤¥µ¥¤¥é¥È¥í¥óCX2004X¤Ë¤Ä¤¤¤Æ¡¢¤½¤Î²ÄǽÀ­¤òÄ´¤Ù¤ë¤¿¤á¤Î¸¡ºº¤ò³«»Ï¤·¤¿¤Î¤ÇÊó¹ð¤¹¤ë¡£
 
13:00 - 15:00 
SUP020
p.873
Development of advanced THz generation schemes at KEK LUCX facility
¡ûAlexander Aryshev, Sakai Araki, Masafumi Fukuda, Konstantin Lekomtsev, Mikhail Shevelev, Junji Urakawa (High Energy Accelerator Research Organization), Alexander Potylitsyn (Tomsk Polytechnic University), Kazuyuki Sakaue (Waseda University)
 
The motivation for developing a linac-based THz source at KEK LUCX is coming from the growing interest to THz radiation. High gradient photo-cathode RF gun and few tens of femto-second laser system can directly generate a pre-bunched electron beam of a few hundred femto-seconds. We have proposed a new approach to produce the intense beams in the range of 0.1-5 THz based on Coherent Smith-Purcell Radiation (CSPR) in ¡Èsuper-radiant¡É regime on a 8 MeV electron beam at KEK LUCX accelerator. CSPR is generated when a charged particle moves in the vicinity of a periodical pattern or grating. The grating type and period can be chosen to make quasi-monochromatic CSPR spectrum. The radiation is coherent when its wavelength is comparable to or longer than the bunch length. It enters a ¡Èsuper-radiant¡É regime if micro-bunch spacing became comparable with radiation wavelength which is comparable to the grating period. To produce such a micro-bunch train of electrons a new Ti:Sa laser system for LUCX RF Gun has been developed. In this report the status of the experiment, Ti:Sa laser system, CSPR basic properties and vacuum chamber with manipulation system will be presented.
 
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Simulation on bunch lengthening with 3.5 harmonic cavity for SPring-8-II plan

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¡ûTakahiro Fujita, Hiroyasu Ego, Takeshi Nakamura, Akira Mochihashi (JASRI/SPring-8)
 
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¡ûAtsushi Miyamoto, Shigemi Sasaki (HSRC)
 
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¡ûMasahiro Adachi, Kimichika Tsuchiya, Tatsuro Shioya, Tohru Honda, Yasunori Tanimoto, Seiji Asaoka, Takashi Nogami (KEK)
 
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¡ûSo Sekita (nagoya university), Masato Hosaka (NUSR), Yoshifumi Takashima (nagoya university), Naoto Yamamoto (NUSR), Jyunichiro Yamazaki, Kenji Hayashi, Taro Konomi, Masahiro Katoh (UVSOR)
 
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¡ûMitsuaki Tachibana, Masafumi Kumaki, Kazuyuki Sakaue, Masakazu Washio (Waseda Univ.), Ryunosuke Kuroda, Yoshitaka Taira, Hiroyuki Toyokawa, Kawakatsu Yamada (AIST)
 
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Evaluation of test magnets for composite period undulator

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¡ûAkihiro Kuroda (University of Hyogo), Akihiro Kagamihata, Takamitsu Seike (JASRI), Hideo Kitamura, Takashi Tanaka (RIKEN)
 
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Construction and Commissioning of cERL Injector and Status of cERL Return Loop

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¡ûShogo Sakanaka, Shinichi Adachi, Mitsuo Akemoto, Dai Arakawa, Seiji Asaoka, Kazuhiro Enami, Kuninori Endo, Shigeki Fukuda, Takaaki Furuya, Kaiichi Haga, Kazufumi Hara, Kentaro Harada, Tohru Honda, Yosuke Honda, Hiroyuki Honma, Teruya Honma, Kenji Hosoyama, Ken-ichi Hozumi, Atsushi Ishii, Eiji Kako, Yukihide Kamiya, Hiroaki Katagiri, Hiroshi Kawata, Yukinori Kobayashi, Yuuji Kojima, Yoshinari Kondou, Tatsuya Kume, Toshihiro Matsumoto, Hiroshi Matsumura, Hideki Matsushita, Shinichiro Michizono, Takako Miura, Tsukasa Miyajima, Shinya Nagahashi, Hirotaka Nakai, Hiromitsu Nakajima, Norio Nakamura, Kota Nakanishi, Katsumi Nakao, Kazuyuki Nigorikawa, Takashi Nogami, Shuichi Noguchi, Shunsuke Nozawa, Takashi Obina, Toshiyuki Ozaki, Feng Qiu, Hiroshi Sakai, Shinichi Sasaki, Hidenori Sagehashi, Kotaro Satoh, Masato Ssatoh, Tetsuo Shidara, Miho Shimada, Kenji Shinoe, Tatsuro Shioya, Toshio Shishido, Mikito Tadano, Takeshi Takahashi, Ryota Takai, Tateru Takenaka, Yasunori Tanimoto, Makoto Tobiyama, Kimichika Tsuchiya, Takashi Uchiyama, Akira Ueda, Kensei Umemori, Ken Watanabe, Masahiro Yamamoto, Yasuchika Yamamoto, Yoshiharu Yano, Mitsuhiro Yoshida (KEK), Enrico Cenni (Sokendai), Hiroyuki Takaki (ISSP), Ryoichi Hajima, Shunya Matsuba, Ryoji Nagai, Nobuyuki Nishimori, Masaru Sawamura, Toshiyuki Shizuma (JAEA), Masao Kuriki, Hokuto Iijima (Hiroshima Univ.)
 
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Impact evaluation of Ion Back-Bombardment of NEA-GaAs

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¡ûKentaro Miyoshi, Masao Kuriki, Lei Guo (AdSM, Hiroshima Univ.), Hokuto Iijima (Tokyo University of Science)
 
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Beam Dynamics Study in Femtosecond Time-resolved Electron Microscopy

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¡ûLiang Li, Takumi Nakanishi, Jinfeng Yang, Yoichi Yoshida (ISIR, Osaka University)
 
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Development of Transmission-type Polarized Electron Source for Inverse Photoemission Spectroscopy

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¡ûYohei Kajiura, Toshiki Inagaki (Nagoya University), Naoto Yamamoto, Masahito Hosaka, Atsusi Mano, Yoshifumi Takashima (NUSR,Nagoya University), Taro Konomi, Masahiro Katoh (UVSOR,IMS)
 
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retrievement of the charge stripping foil in J-PARC RCS

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¡ûNorimitsu Tobita, Masahiro Yosimoto, Yoshio Yamazaki, Riuji Saeki, Kouta Okabe, Michikazu Kinsho (Japan Atomic Energy Agency J-PARC), Osamu Takeda, Masayoshi Mutoh (NIPPON ADVANCED TECHNOLOGY Co.,Ltd.)
 
J-PARC 3GeV¥·¥ó¥¯¥í¥È¥í¥ó¡ÊRCS¡§Rapid Cycling Synchrotron¡Ë¤ÇÍѤ¤¤ë²ÙÅÅÊÑ´¹¥Õ¥©¥¤¥ë¤Ï¡¢¸ü¤ßÌó1¦Ìm¤ÎúÁÇÀ½ÇöËì¤Ç¤¢¤ê¡¢¥Ó¡¼¥à¤¬¾È¼Í¤µ¤ì³¤±¤ë¤³¤È¤ÇÊü¼Í²½¤¹¤ë¡£¤Þ¤¿°ìÈÌŪ¤Ë¡¢¥Õ¥©¥¤¥ë¼«ÂΤâÎô²½¤¬¿Ê¤ß²õ¤ì¤ä¤¹¤¯¤Ê¤ë¤È¹Í¤¨¤é¤ì¤Æ¤¤¤ë¡£¤·¤«¤·¡¢¾È¼Í¸å¤Î¥Õ¥©¥¤¥ë¤ò¼è°·¤¦ºÝ¤Ë¤Ï¡¢¥Õ¥©¥¤¥ë¤¬Èô»¶¤¹¤ë¤³¤È¤Ë¤è¤ë±øÀ÷¤äÂÎÆâÈï¤Ð¤¯¤È¤¤¤Ã¤¿´í¸±À­¤Ø¤ÎÂкö¤¬²ÝÂê¤Î°ì¤Ä¤Ç¤¢¤ë¡£¤½¤³¤ÇRCS¤Ç¤Ï¡¢Êü¼Í²½¤·¤¿¥Õ¥©¥¤¥ë¤ò°ÂÁ´¤«¤Ä³Î¼Â¤Ë²ó¼ý¤¹¤ë¤¿¤á¤Î¥Õ¥©¥¤¥ë¸ò´¹¥Ö¡¼¥¹¤òÀßÃÖ¤·¤¿¡£²¾¤Ë¥Õ¥©¥¤¥ë¤òÈô»¶¤µ¤»¤¿¾ì¹ç¤Ç¤â¡¢Êü¼Í²½¤·¤¿¥Õ¥©¥¤¥ë¤ò¥Ö¡¼¥¹Æâ¤Ë¤À¤±ÊĤ¸¹þ¤á¡¢ºî¶È°÷¤ÎÈï¤Ð¤¯¤äºî¶È¥¨¥ê¥¢¤Î±øÀ÷¤òËɤ°¤³¤È¤¬¤Ç¤­¤ë¤è¤¦¤Ë¤Ê¤Ã¤¿¡£ ¡¡¤Þ¤¿¡¢¥Õ¥©¥¤¥ë¤ÎÀ­Ç½¸þ¾å¤Î´ÑÅÀ¤«¤é¸«¤ë¤È¡¢²ó¼ý¤·¤¿¥Õ¥©¥¤¥ë¤ÎʬÀÏ¡¦´Ñ»¡¤Ï½ÅÍפʲÝÂê¤Î°ì¤Ä¤Ç¤¢¤ë¡£¤½¤³¤Ç¡¢¥Ó¡¼¥à¾È¼Í¸å¤ÎÊü¼Í²½¤·¤¿¥Õ¥©¥¤¥ë¤ò´Ñ»¡¤¹¤ë¤¿¤á¡¢¥Õ¥©¥¤¥ë¥Õ¥ì¡¼¥àñÂΤÇÌ©ÊĤǤ­¤ëÆ©ÌÀ¤ÎÊݸ¡¼¥¹¤ò³«È¯¤·¤¿¡£Ì©Êĥܥ寥¹¤«¤é¥°¥í¡¼¥Ö¥Ü¥Ã¥¯¥¹¤ÎÃæ¤Ç¥Õ¥©¥¤¥ë¤ò¥Õ¥ì¡¼¥à1Ë示¤ÄÊݸ¡¼¥¹¤ËÊݴɤ·¤Æ¼è½Ð¤¹¤³¤È¤Ç´Ñ»¡¤Î¤¿¤á¤Î¼è°·¤¬Íưפˤʤä¿¡£ ¡¡ËÜȯɽ¤Ç¤Ï¡¢¥Ó¡¼¥à¾È¼Í¸å¤Î²ÙÅÅÊÑ´¹¥Õ¥©¥¤¥ë¤ò²ó¼ý¤¹¤ë¤¿¤á¤Ë³«È¯¤·¤¿ÁõÃÖ¤ä³ÎΩ¤·¤¿¼êË¡¤Ë¤Ä¤¤¤Æ¾Ü¤·¤¯È¯É½¤¹¤ë¡£
 
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J-PARC¥»¥·¥¦¥àź²Ã¹â¼þÇȶîÆ°Éé¿åÁÇ¥¤¥ª¥ó¸»¤Î³«È¯¾õ¶·
Development of a Cs-seeded RF-Driven H-ion source for the J-PARC

¡û¾®Àô ·®¡¤¾åÌî ¾´¡¤Âç±Û À¶µª¡¤ÃÓ¾å À¶¡¤¹âÌÚ ¾¼¡¤»³ºê ºË½Õ¡¤¾®·ª ±ÑÃΡÊJ-PARC¥»¥ó¥¿¡¼¡Ë
¡ûIsao Koizumi, Akira Ueno, Kiyonori Ohkoshi, Kiyoshi Ikegami, Akira Takagi, Saishun Yamazaki, Hidetomo Oguri (J-PARC Center)
 
J-PARCÂè2¥¹¥Æ¡¼¥¸¤ÎÍ×µá¤òËþ¤¿¤¹¥¤¥ª¥ó¸»¤È¤·¤Æ¡¢¿åÊ¿¡õ¿âľ²£Êý¸þ¥¨¥ß¥Ã¥¿¥ó¥¹1.5¦Ðmm¡¦mradÆâ¥Ó¡¼¥à¶¯ÅÙ¡§60mA¡¢¥Ñ¥ë¥¹Éý¡§¥Ó¡¼¥à¥Õ¥é¥Ã¥È¥È¥Ã¥×500¦Ìs¡¢·«¤êÊÖ¤·¡§25Hz¡¢±¿Å¾¼÷Ì¿50Æü°Ê¾å¤òÌÜɸ¤È¤·¤¿¡¢¥»¥·¥¦¥àź²Ã¹â¼þÇȶîÆ°(RF)Éé¿åÁÇ¥¤¥ª¥ó¸»¤Î³«È¯¤ò¹Ô¤Ã¤Æ¤¤¤ë¡£¸½ºß¥Æ¥¹¥ÈÃæ¤ÎRF¥¤¥ª¥ó¸»¤Ï¡¢J-PARC¼Âµ¡¥¤¥ª¥ó¸»¤ò¥Ù¡¼¥¹¤ËÍÍ¡¹¤Ê²þÎɤò»Ü¤·¤Æ¤¤¤ë¡£¥½¡¼¥¹¥×¥é¥º¥Þ¤Ï30MHz-RF¤òϢ³Ū¤Ë°õ²Ã¤·¡¢2MHz-RF¤ò¥Ñ¥ë¥¹Åª¤Ë½Å¾ö¤·¤ÆÀ¸À®¤·¤Æ¤¤¤ë¡£200¡Á240¡î¤Ë²ÃÇ®¤µ¤ì¤¿¥ª¡¼¥Ö¥óÆâ¤Î¾øµ¤²½¤µ¤ì¤¿¥»¥·¥¦¥à(Cs)¤Ï¡¢°µ¶õ¥Ð¥ë¥Ö³«¤Ë¤è¤ê¥×¥é¥º¥ÞÀ¸À®¼¼Æâ¤ËƳÆþ¤µ¤ì¤ë¡£¥Ó¡¼¥à¶¯Å٤ϡ¢°µ¶õ¥Ð¥ë¥Ö³«»þ´Ö¤Ë¤è¤ëCsÎ̤κÇŬ²½¡¢ÎäµÑÈĤؤ൶õÎ̤ˤè¤ëPE²¹ÅÙ¡¢¼´¼§¾ìÊäÀµÍÑ(AMFC)¥³¥¤¥ëÅÅή¤Ë¤è¤ë¼´¼§¾ìÊäÀµÅù¤Ë¤è¤êºÇÂç²½¤¬¿Þ¤é¤ì¤ë¡£Ìµ»ÀÁÇƼÀ½¥×¥é¥º¥Þ¿¿¶õÍÆ´ï¤ò»ÈÍѤ·¤¿¥×¥í¥È¥¿¥¤¥×¥¤¥ª¥ó¸»¤Ç¡¢¾åµ­¤ÎÌÜɸ¤¬Ã£À®²Äǽ¤Ç¤¢¤ë¤È¤Î¼Â¸³·ë²Ì¤òºòǯÊó¹ð¤·¤¿¡£ ËÜǯ¤Ï¡¢¥¹¥Æ¥ó¥ì¥¹¹ÝÀ½¥×¥é¥º¥Þ¿¿¶õÍÆ´ï¤Î¼Â¸³·ë²Ì¤òÊó¹ð¤¹¤ë¡£¥¹¥Æ¥ó¥ì¥¹¹ÝÀ½¥×¥é¥º¥Þ¿¿¶õÍÆ´ï¤Ï·ÚÎ̲½¤òÌÜŪ¤ËºÎÍѤ·¤Æ¤ª¤ê¡¢Í½¤á¿¿¶õ¥ê¡¼¥¯¥Æ¥¹¥È²Äǽ¤Ê¥×¥é¥º¥ÞÅŶˤ«¤éÅ·ÈĤޤǰìÂ⽤µ¤ì¤¿¥×¥é¥º¥Þ¿¿¶õÍÆ´ï¤ò¥¤¥ª¥ó¸»¤ËÁȹþ¤à°Ù¡¢·ÚÎ̲½¤¬É¬¿Ü¤Ç¤¢¤Ã¤¿¡£¤³¤ì¤Ë¤è¤ê¡¢²ÔƯÃæ¤ÎJ-PARC¼Âµ¡¥¤¥ª¥ó¸»¤ÈƱÍͤÎû¤¤»þ´Ö¤Ç¤Î¸ò´¹¤¬²Äǽ¤È¤Ê¤ë¡£´Ñ¬¤µ¤ì¤¿Î¾À¸À®¼¼¤Î´Ö¤ÎÁê°ãÅÀ¤Ë¤Ä¤¤¤Æ¤âÊó¹ð¤¹¤ë¡£
 
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Study on Control of the Generated Plasma in Laser Ion Source

¡ûߧë 㧡ÊÅ칩Âç¡Ë¡¤µÈÅÄ ¸÷¹¨¡Ê¹â¥¨¥Í¸¦¡Ë¡¤ÎÓºê µ¬Â÷¡ÊÅ칩Âç¡Ë
¡ûTatsunori Shibuya (Tokyo Tech), Mitsuhiro Yoshida (KEK), Noriyosu Hayashizaki (Tokyo Tech)
 
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ERLÂèÆóÅŻҽƤγ«È¯¾õ¶·
Construction of the 2nd 500 kV DC gun at KEK

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¡ûMasahiro Yamamoto, Tsukasa Miyajima, Yosuke Honda, Takashi Uchiyama, Masanori Kobayashi (KEK), Nobuyuki Nishimori, Ryoji Nagai, Shunya Matsuba, Ryoichi Hajima (JAEA), Masao Kuriki (Hiroshima Univ.), Makoto Kuwahara (Nagoya Univ.), Hajime Yoshida (AIST), Hiroki Kurisu (Yamaguchi Univ.)
 
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LEBRA 100kV DC ÅŻҽÆÅŶ˷Á¾õ¤ÎºÇŬ²½¥·¥ß¥å¥ì¡¼¥·¥ç¥ó
Design optimization of 100 kV DC-gun wehnelt electrode for linac at LEBRA

¡û¶­ Éð»Ö¡¤ÅÄÃæ ½ÓÀ®¡¤ÁáÀî ·ú¡¤ÁáÀî ¶³»Ë¡¤ÃæÈø ·½º´¡¤Ìî¾å °É»Ò¡¤°ð³À ³Ø¡ÊÆüÂçÎ̲ʸ¦ LEBRA¡Ë
¡ûTakeshi Sakai, Toshinari Tanaka, Ken Hayakawa, Yasushi Hayakawa, Keisuke Nakao, Kyoko Nogami, Manabu Inagaki (LEBRA, Nihon University)
 
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C¥Ð¥ó¥ÉRFÅŻҽƤγ«È¯
Development of a C-band RF gun

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¡ûYoshitaka Taira, Ryunosuke Kuroda, Masahito Tanaka, Hidetoshi Kato, Ryoichi Suzuki, Hiroyuki Toyokawa (AIST)
 
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Calculations of the high frequency cavity used to make a controlled blow-up of the longitudinal emittance in J-PARC MR

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¡ûDaisuke Suzuki, Sadao Miura, Katsuya Sennyu (Mitsubishi Heavy Industries, Ltd.), Shigeru Kashiwagi, Hiroyuki Hama (Research Center for Electron Photon Science, Tohoku University)
 
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Countermeasure of the Multipactor at SDTL Cavity in J-PARC Linac

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1.2MW CW ÂçÅÅÎÏÍÑ¥¦¥©¡¼¥¿¡¼¥í¡¼¥É¤Î³«È¯
Development of cylindrical-type 1.2 MW CW high power water-load for super kekb

¡ûÅÏîµ ¸¬¡¤À¾ÏÆ ¤ß¤Á¤ë¡¤³¤Ï·¸¶ À¶°ì¡¤²ÄÉô ÇÀ»Ö¡¤´ÝÄÍ ¾¡Èþ¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë¡¤»°±º ¸ü¡¤À Í´Êå¡ÊÆüËܹâ¼þÇȳô¼°²ñ¼Ò¡Ë
¡ûKen Watanabe, Michiru Nishiwaki, Kiyokazu Ebihara, Atsushi Kabe, Katsumi Marutsuka (High Energy Accelerator Organization), Atsushi Miura, Yusuke Kawane (Nihon Koshiha Co. Ltd.)
 
KEK¤Ç¸½ºß·úÀßÃæ¤ÎSuperKEKB²Ã®´ï¤ÏÅÅ»ÒÍÛÅŻҤòÍѤ¤¤¿¥À¥Ö¥ë¥ê¥ó¥°¥³¥é¥¤¥À¡¼¤Ç¤¢¤ë¡£¼ç¥ê¥ó¥°¤ËÍѤ¤¤é¤ì¤ë¹â¼þÇȸ»¤Ï¼þÇÈ¿ô508.9MHz¡¢ºÇÂç½ÐÎÏ1.2MW CW¤Î¥¯¥é¥¤¥¹¥È¥í¥ó¡ÊToshiba E3732¡¢E3786¡Ë¤Ç¤¢¤ê¡¢È¯À¸¤µ¤»¤¿ÂçÅÅÎϤò°ÂÁ´¤ËµÛ¼ý¤µ¤ì¤ë¤¿¤á¤ËÂçÅÅÎÏÍѤΥ¦¥©¡¼¥¿¡¼¥í¡¼¥É¤¬ÍѤ¤¤é¤ì¤Æ¤¤¤ë¡£ËÜÊó¹ð¤Ç½Ò¤Ù¤ëÂçÅÅÎÏÍÑ¥¦¥©¡¼¥¿¡¼¥í¡¼¥É¤Ï¡¢¸½ºß³«È¯Ãæ¤Î±ßÅû·¿¿å¥¿¥ó¥¯¤òÍ­¤¹¤ë¥â¥Ç¥ë¤Ç¤¢¤ê¡¢¹â¼þÇÈÁë¼þÊÕ¤ÎɽÌÌÅÅήʬÉÛ¤ÎÄ㸺¤Ë¤è¤ë¶É½êŪ¤ÊȯǮ¤ÎÍÞÀ©¡¢¿å¥¿¥ó¥¯¤Ë¤ª¤±¤ë°µÎÏ»¼º¤ÎÄ㸺¤Ë¤è¤ëÁ´ÍÈÄø¤Î²þÁ±¤ª¤è¤Ó¹â¼þÇÈÁë¶á˵¤Î¿åή¤Î²þÁ±¤Ë¤è¤ëÎäµÑ¸úΨ¤Î¸þ¾å¤òÌÜŪ¤È¤·¤ÆÀ߷פµ¤ì¤Æ¤ª¤ê¡¢´û¸¤Î³Ñ·¿¥â¥Ç¥ë¤ÈÈæ³Ó¤·¤Æ¡¢¤µ¤é¤Ê¤ë¹âÀ­Ç½²½¤¬´üÂÔ¤µ¤ì¤ë¡£¤Ê¤ª¡¢¹â¼þÇÈÅÅÎϤεۼýÂΤˤϻԿå¤òÍѤ¤¤ë¡£SuperKEKB²Ã®´ï¤Ç¤Ï¥Ó¡¼¥àÅÅήÁý²Ã¤Ëȼ¤¤¡¢¼ç¥ê¥ó¥°¤ÎRF¥¹¥Æ¡¼¥·¥ç¥ó¤ÎÁý¶¯¤ò¹Ô¤Ã¤Æ¤¤¤ë¡£ÆäËÂçÊæÃ϶èD4¡¢D5ÅŸ»Åï¤Ç¤ÏÂçÅÅÎÏÍÑ¥¦¥©¡¼¥¿¡¼¥í¡¼¥É¤ò·×14ÂæɬÍפȤ·¤Æ¤ª¤ê¡¢Ëܵ¡¤Ï¤½¤ì¤Ë³ä¤êÅö¤Æ¤ë¡£ËÜÊó¹ð¤Ç¤Ï¡¢2012ǯÅÙ¤ËÀ½ºî¤µ¤ì¤¿4Âæ¤Î±ßÅû·¿¥¦¥©¡¼¥¿¡¼¥í¡¼¥É¤ÎÀ߷פª¤è¤ÓÂçÅÅÎϻ¤Î·ë²Ì¤Ë¤Ä¤¤¤Æ½Ò¤Ù¤ë¡£
 
13:00 - 15:00 
SUP051
p.992
cERLÆþ¼Í´ï¤Î¹â¼þÇÈ¥·¥¹¥Æ¥à
RF SYSTEM FOR cERL INJECTOR

¡û»°±º ¹§»Ò¡¤ÌÀËÜ ¸÷À¸¡¤¹ÓÀî Â硤ÊÒ¶Í ¹­ÌÀ¡¤Àß³Ú Å¯Éס¤ÃÝÃæ ¤¿¤Æ¤ë¡¤ÃæÈø ¹î̦¡¤ÃæÅç ·¼¸÷¡¤Ê¡ÅÄ Ìмù¡¤ËÜ´Ö Ç¡¤¾¾²¼ ±Ñ¼ù¡¤¾¾ËÜ Íø¹­¡¤Æ»±à ¿¿°ìϺ¡¤ÌðÌî ´î¼£¡¤î¹ ¥Õ¥§¥ó¡¤½©»³ ÆÆÈþ¡¤ºäÃæ ¾Ï¸ç¡¤Æó¥ÃÀî ·òÂÀ¡¤ÂÓ̾ ¿ò¡¤ËÜÅÄ Íβ𡤵ÜÅç »Ê¡ÊKEK¡Ë
¡ûTakako Miura, Mitsuo Akemoto, Dai Arakawa, Hiroaki Katagiri, Tetsuo Shidara, Tateru Takenaka, Katsumi Nakao, Hiromitsu Nakajima, Shigeki Fukuda, Hiroyuki Honma, Hideki Matsushita, Toshihiro Matsumoto, Shinichiro Michizono, Yoshiharu Yano, Feng Qiu, Atsuyoshi Akiyama, Shogo Sakanaka, Kenta Futasukawa, Takashi Obina, Yosuke Honda, Tsukasa Miyajima (KEK)
 
cERLÆþ¼Í´ï¤Ï¡¢¾ïÅÁƳ¤Î¥Ð¥ó¥Á¥ã¡¼¶õƶ£±Âæ¤È¡¢£²¥»¥ë¤ÎĶÅÁƳ¶õƶ¤¬£³Âæ¡¢·×£´Âæ¤Î¶õƶ¤«¤é¹½À®¤µ¤ì¤Æ¤ª¤ê¡¢¤³¤ì¤é¤Ë1.3 GHz¤ÎRF¤ò¶¡µë¤¹¤ëɬÍפ¬¤¢¤ë¡£Æäˡ¢¤³¤³¤ÇºÎÍѤµ¤ì¤Æ¤¤¤ëĶÅÁƳ¶õƶ¤Ë¤Ï¡¢³Æ¡¹¾å²¼ÂоΤΰÌÃÖ¤ËÆþÎÏ¥«¥Ã¥×¥é¡¼¤¬¼è¤êÉÕ¤±¤é¤ì¤Æ¤ª¤ê¡¢RF¤òƱ°ÌÁê¤Ç¾å²¼¤«¤é¶¡µë¤¹¤ëɬÍפ¬¤¢¤ë¡£¤³¤ì¤Þ¤Ç¡¢¹â¼þÇȸ»¤ÎÀ°È÷¡¢Æ³ÇȴɷϤι½ÃۤȰÌÁê¤Î¹»Àµ¡¢ÄãÅÅÎϹâ¼þÇÈÀ©¸æ·Ï(LLRF)¤ÎÀ°È÷¤ò¤Û¤Ü½ª¤¨¡¢2013ǯ4·î¤«¤écERLÆþ¼Í´ï¤Î¥Ó¡¼¥à¥³¥ß¥Ã¥·¥ç¥Ë¥ó¥°¤¬³«»Ï¤µ¤ì¤¿¡£¼ã´³¼êľ¤·¤¬É¬Íפʲս꤬»Ä¤Ã¤Æ¤¤¤ë¤¬¡¢RF¥·¥¹¥Æ¥àñÂΤǤÎû»þ´Ö¤Î»î¸³¤Ç¤Ï¡¢É¬ÍפȤµ¤ì¤ë0.1%rms, 0.1deg rms¤Î»ÅÍͤòËþ­¤¹¤ë·ë²Ì¤¬ÆÀ¤é¤ì¤¿¡£¥Ó¡¼¥à¤È¤ÎÁê´Ø¤ò¤È¤ê¡¢¥Ó¡¼¥à¤ËÂФ¹¤ëRF¥·¥¹¥Æ¥à¤Î°ÂÄêÅ٤ˤĤ¤¤Æ¤Îɾ²Á¤â¹Ô¤¦¡£
 
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SUP052
p.997
325MHz ÂçÅÅÎÏ¥¯¥é¥¤¥¹¥È¥í¥ó¤Î³«È¯
Development of a 325MHz high power klystron

¡ûÅÄÃæ ÉÒʸ¡¤ÎÓ ·ò°ì¡¤Âçµ×ÊÝ ÎɵסÊÅì¼ÇÅŻҴɥǥХ¤¥¹³ô¼°²ñ¼Ò¡Ë
¡ûToshifumi Tanaka, Kenichi Hayashi, Yoshihisa Okubo (Toshiba Electron Tubes & Devices Co., Ltd.)
 
Åì¼ÇÅŻҴɥǥХ¤¥¹¡Ê³ô¡Ë¤Ç¤ÏÃæ¹ñADS·×²è¸þ¤±¤Î¥¯¥é¥¤¥¹¥È¥í¥ó¤È¤·¤Æ¼þÇÈ¿ô325MHz¤ÎϢ³ÇȽÐÎÏ600£ëW¤Î¥¯¥é¥¤¥¹¥È¥í¥ó¤Î³«È¯¤ò¹Ô¤Ã¤Æ¤¤¤ë¡£ËÜ¥¯¥é¥¤¥¹¥È¥í¥ó¤Î³«È¯¤ÏJ¡ÝPARC¸þ¤±£³£²£´£Í£È£ú¤Ç¥Ô¡¼¥¯½ÐÎÏ3£Í£×¤Î¥Ñ¥ë¥¹¥¯¥é¥¤¥¹¥È¥í¥ó£Å£³£·£´£°£Á¤ò´ðËܤȤ·¡¢Æ°ºîÅÀ¤ÎºÇŬ²½¤Ë¤è¤ëÁê¸ßºîÍÑÉô¤ÎÀß·×Êѹ¹¤Ê¤é¤Ó¤ËϢ³ÇÈÆ°ºî¤Î¤¿¤á¤Î¥³¥ì¥¯¥¿¤ä¥Ó¡¼¥à¥È¥ó¥Í¥ëÉô¤ÎÎäµÑ¶¯²½¤ÎÀß·×Êѹ¹¤Ë¤è¤ê¹Ô¤Ã¤Æ¤¤¤ë¡£ÅŻҽÆÉô¤ä½ÐÎϲóÏ©¤ÏÀ߷׸¡Æ¤¤Î·ë²Ì£Å£³£·£´£°£Á¤Î¹½Â¤¤«¤é¤Î¾®Êѹ¹¤ÇÂбþ¤·¤Æ¤ª¤ê¼ÂÀӤΤ¢¤ë¹½Â¤¤òºÎÍѤ·¤¿¡£¥³¥ì¥¯¥¿¤Ï¶¯À©¿åÎä·¿¤È¤¹¤ë¤³¤È¤ÇRFÆþÎÏ̵¤·¤ÇÆ°ºî²Äǽ¤È¤·¤Ê¤¬¤é½¾Íè¤Î500MHz¥¯¥é¥¤¥¹¥È¥í¥óE3732¤Î¥³¥ì¥¯¥¿¤è¤êÂçÉý¤Î¸ºÍƤȤ·¤¿¡£ËÜ¥¯¥é¥¤¥¹¥È¥í¥ó¤Î»îºî£±ËÜÌܤϣ²£°£±£³Ç¯£µ·î¤Ë¹©¾ì¤Ç¤Îɾ²Á»î¸³¤ò¹Ô¤¤¡¢½ÐÎÏ614kW¤ÇÆ°ºî¸úΨ62%¤ÎϢ³ÇÈÆ°ºî¤ò³Îǧ¤·¤¿¡£º£²ó¤Ï¥¯¥é¥¤¥¹¥È¥í¥ó¤ÎÀ߷פÈÆ°ºî»î¸³·ë²Ì¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£
 
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SUP053
p.1001
J-PARC¥ê¥Ë¥¢¥Ã¥¯¡¡¥¯¥é¥¤¥¹¥È¥í¥ó¹â°µÅŸ»Ää»ßÉÑÅ٤βþÁ±
Improvement for the Trip Rate of Klystron High-Voltage Power Supplies in J-PARC Linac

¡ûËÙ Íøɧ¡¤º´Æ£ ʸÌÀ¡¤¼Äºê ¿®°ì¡¤ÀéÂå ±Ù»Ê¡¤¾®·ª ±ÑÃΡÊJ-PARC¥»¥ó¥¿¡¼¡¢JAEA¡Ë¡¤Æó¥ÄÀî ·òÂÀ¡¤Ê¡°æ Í´¼£¡ÊJ-PARC¥»¥ó¥¿¡¼¡¢KEK¡Ë
¡ûToshihiko Hori, Fumiaki Sato, Shinichi Shinozaki, Etsuji Chishiro, Hidetomo Oguri (J-PARC Center, JAEA), Kenta Futatugawa, Yuji Fukui (J-PARC Center, KEK)
 
J-PARC¥ê¥Ë¥¢¥Ã¥¯¤Ç¤Ï2012ǯ¤Î²Æ¥á¥ó¥Æ¥Ê¥ó¥¹°Ê¹ß¤Î¥Ó¡¼¥àÍøÍѱ¿Å¾¤Ë¤Æ¡¢¥¯¥é¥¤¥¹¥È¥í¥óÅŸ»¤ÎÆÃÄê¹æµ¡¤Ç¹â°µÄä»ßÉÑÅÙ¤¬¹â¤¯¤Ê¤ê¡¢²Ã®´ï¤Î²ÔƯΨ¤òÄã²¼¤µ¤»¤Æ¤¤¤¿¡£¹â°µÄä»ß»þ¤Î³ÆÉôÇÈ·Á¤ò´Ñ¬¤·¤¿¤È¤³¤í¡¢¥¢¥Î¡¼¥ÉÅÅ°ÌûÍí¤¬¸¶°ø¤ÎÄä»ß¤¬Â¿¿ô¥â¥Ë¥¿¤µ¤ì¤¿¡£¤³¤Î¸½¾Ý¤Ï¼ç¤Ë¡¢¥Ñ¥ë¥¹·«ÊÖ¤·¿ô¡§25pps¤Î¥Ó¡¼¥à²Ã®»þ°Ê³°¤Î¥¿¥¤¥ß¥ó¥°¤ÇȯÀ¸¤·¤Æ¤¤¤ë¤¿¤áËÜÍ衢ş»¤ÏÄä»ß¤·¤Ê¤¤¡£¤½¤³¤Ç¤³¤Î¸½¾Ý¤Ï1¼¡ÅªÍ×°ø¤Ç¤¢¤ë¤È¹Í¤¨2¼¡ÅªÍ×°ø¤òÄ´ºº¤·¤¿·ë²Ì¡¢¥È¥ê¥¬¡¼Ê¬ÇÛÍѤÎNIM¥â¥¸¥å¡¼¥ë¤¬¥¢¥Î¡¼¥ÉûÍí»þ¤ËÀ¸¤¸¤ëÅż§¡¦íռͥΥ¤¥ºÅù¤Ë¤è¤Ã¤Æ¸íÆ°ºî¤·¤Æ¤¤¤ë¤³¤È¤¬¤ï¤«¤Ã¤¿¡£¤³¤Î¥â¥¸¥å¡¼¥ë¤ÏÁ´·Ï¥¿¥¤¥ß¥ó¥°¥·¥¹¥Æ¥à¤«¤é¥¢¥Î¡¼¥ÉÊÑÄ´¥¿¥¤¥ß¥ó¥°¥Ñ¥ë¥¹¤ò¼õ¿®¤·¡¢ÊÑÄ´´ïÆâ¤ÎȾƳÂÎ¥¹¥¤¥Ã¥ÁON-OFF¥È¥ê¥¬¡¼Ê¤Ӥˡ¢¥¢¥Ê¥í¥°ÇÈ·Á¥µ¥ó¥×¥ë¥Û¡¼¥ë¥É²óÏ©¤Î´ð½à¥È¥ê¥¬¡¼¤ò½ÐÎϤ¹¤ë¤â¤Î¤Ç¤¢¤ë¡£¸íÆ°ºîÂкö¤È¤·¤Æ¡¢¥â¥¸¥å¡¼¥ë´ðÈĤΥ¢¡¼¥¹¥é¥¤¥ó¶¯²½¡¢Æþ½ÐÎÏ¤Ë¥í¡¼¥Ñ¥¹¥Õ¥£¥ë¥¿ÁÞÆþ¤Ê¤É¤Î²þÎɤò¸½ºß·Ñ³Ãæ¤Ç¤¢¤ë¡£¤³¤ì¤é¤Ë²Ã¤¨¡¢¥¢¥Î¡¼¥ÉûÍí²Õ½ê¤òÆÃÄꤹ¤ë¤¿¤á¤Î¥¯¥é¥¤¥¹¥È¥í¥ó¡ÊDTL#2¹æµ¡Íѡ˸ò´¹ºî¶È¤ò2013ǯ2·î¤Ë¼Â»Ü¤·¤¿¡£·ë²Ì¡¢Ã»Íí²Õ½ê¤Ï¥¯¥é¥¤¥¹¥È¥í¥óÅŻҽÆÉô¤Î¥¢¥Î¡¼¥É¡Ý¥Ü¥Ç¥£´Ö¤ÇÀ¸¤¸¤Æ¤¤¤ë¤³¤È¤¬È½ÌÀ¤·¡¢½¾Íè¹Í¤¨¤é¤ì¤Æ¤¤¤¿ÊÑÄ´´ï¦¤Ç¤Ï¤Ê¤¤¤³¤È¤â³Îǧ¤·¤¿¡£¼è¤ê³°¤·¤¿¥¯¥é¥¤¥¹¥È¥í¥ó¤Ï¥Æ¥¹¥È¥¹¥Æ¡¼¥·¥ç¥ó¤Ç²ÔƯ¤·¤Æ¤ª¤ê¡¢Ã»Íí¸½¾Ý¤ÎºÆ¸½À­¤äûÍí²ó¿ô¤ÎÄ㸺¤Ë¸þ¤±¤¿Ä´ºº¤ò·Ñ³Ãæ¤Ç¤¢¤ë¡£
 
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SUP054
p.1004
spring-8 1GeV Àþ·¿²Ã®´ï¥â¥¸¥å¥ì¡¼¥¿ÅŸ»¤Î¸½¾õ
Present status of modulator of SPring-8 1-GeV linac

¡û¾®ÎÓ ÍøÌÀ¡¤½Ð±© ±Ñµª¡¤ÇϹþ ÊÝ¡¤Ã«Æâ ÅØ¡¤ÎëÌÚ ¿Â²ð¡¤¿åÌî ÌÀɧ¡¤ÌøÅÄ ¸¬°ì¡¤²ÖÌÚ Çîʸ¡Ê¸øºâ¡Ë¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûToshiaki Kobayashi, Hideki Dewa, Tamotsu Magome, Tsutomu Taniuchi, Shinsuke Suzuki, Akihiko Mizuno, Kenichi Yanagida, Hirohumi Hanaki (JASRI/SPring-8)
 
SPring-8Àþ·¿²Ã®´ï¤Ç¤Ï¡¢¾Ê¥¨¥Í²½¤Î¤¿¤á¤Ë¥â¥¸¥å¥ì¡¼¥¿ÅŸ»¤ÎÄã·«¤êÊÖ¤·±¿Å¾¤ò¼Â»Ü¤·¤Æ¤¤¤ë¡£¥â¥¸¥å¥ì¡¼¥¿ÅŸ»¤Ïºòǯ8·î¤è¤ê10Hz¤«¤é4Hz¤Î±¿Å¾¡ÊÃßÀÑ¥ê¥ó¥°2Hz, ¥Ë¥å¡¼¥¹¥Ð¥ë¥ê¥ó¥°2Hz ·×4Hz¡Ë¤ËÊѹ¹¤·¤Æ¤ª¤ê¡¢¾Ê¥¨¥Í¤ËÂбþ¤·¤¿±¿Å¾¤Ë¤È¤Ê¤Ã¤Æ¤¤¤ë¡£¥â¥¸¥å¥ì¡¼¥¿ÅŸ»¤ÎÄã·«¤êÊÖ¤·±¿Å¾¤ò²Äǽ¤Ë¤·¤¿¥À¥Ö¥ë¥Ñ¥ë¥¹²½±¿Å¾¤Ë¤è¤ê¡¢Äã·«¤êÊÖ¤·¤Ç¤â¡¢¤½¤ì°ÊÁ°¤ÎPFN¥³¥ó¥Ç¥ó¥µ¤«¤é¤Î¥ê¡¼¥¯¤¬¾¯¤Ê¤¤¥¿¥¤¥ß¥ó¥°¤Ç¥µ¥¤¥é¥È¥í¥ó¤¬Æ°ºî¤¹¤ë¤¿¤á¥ê¡¼¥¯ÅÅή¤¬¤à¤·¤í10Hz±¿Å¾»þ¤è¤êÄã²¼¤·¡¢Æ±¤¸PFNÅÅ°µ¤ËÀßÄê¤È¤¹¤ë¤È¥¯¥é¥¤¥¹¥È¥í¥órf ¥Ñ¥ï¡¼¤¬Áý²Ã¤·¤¿¡£¥â¥¸¥å¥ì¡¼¥¿ÅŸ»¤Î¥À¥Ö¥ë¥Ñ¥ë¥¹±¿Å¾²½¤Ëȼ¤¦¥â¥¸¥å¥ì¡¼¥¿¤Îfault¤ÏÁý²Ã¤·¤Æ¤¤¤Ê¤¤¤¬¡¢·ÐǯÎô²½¤·¤Æ¤¤¤ëPFNÅÅ°µ¥×¥í¡¼¥Ö¤Î¿·µ¬À½ºîÉʤË1Âæ¸ò´¹¤·¡¢PFNÅÅ°µ¤Î°ÂÄêÅÙ¤ò´Æ»ë¤·¤Æ¤¤¤ë¡£¥×¥í¡¼¥Ö¸ò´¹¸å¤Î°ÂÄêÅÙ¤ËÌäÂ꤬¤Ê¤±¤ì¤Ð¡¢º£¸å»Ä¤ê¤Î12Âæ¤ò³«È¯¤·¤¿¹âÅÅ°µ¥×¥í¡¼¥Ö¤ËÃÖ¤­´¹¤¨¤Æ¤¤¤¯¡£¤Þ¤¿¹¹¤Ê¤ë ¥â¥¸¥å¥ì¡¼¥¿ÅŸ»°ÂÄê²½¤Î¤¿¤á¤Ë¡¢Ä¹´üŪ¤ËÅÅ°µ°ÂÄêÅÙ¤¬°­¤¤¥µ¥¤¥é¥È¥í¥ó¥Ò¡¼¥¿¡¦¥ê¥¶¡¼¥ÐÅŸ»¤òľή²½¤ò¹Ô¤Ã¤Æ°ÂÄê²½¤¹¤ë»î¸³¤ò¹Ô¤Ã¤Æ¤ª¤ê¡¢2Âæ¤Î¥â¥¸¥å¥ì¡¼¥¿ÅŸ»¤ËÁȤ߹þ¤ß¡¢Ä¹´üÆ°ºî»î¸³¤ò¹Ô¤Ã¤Æ¤¤¤ë¡£¤³¤ì¤é¤Ë¤Ä¤¤¤Æ¤â¾õ¶·Åù¤òÊó¹ð¤¹¤ë¡£
 
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SUP055
p.1008
BNCT¥·¥¹¥Æ¥àÍÑ¡¡ÂçÅÅÎÏ¿ÃÊ·¿¥µ¡¼¥­¥å¥ì¡¼¥¿¤Î³«È¯
Development of the high power Multi-stage type circulator for BNCT system

¡ûÁêß· ½¤°ì¡¤Æü²¼Éô ¹§ÉÒ¡¤±ü»³ ¹±¹¬¡¤ÄᲬ Ìл̡¤¼Ä¸¶ ¸ÊÙ¶¡ÊÆüËܹâ¼þÇȳô¼°²ñ¼Ò¡Ë¡¤¾¾ËÜ ¹À¡¤¾®ÎÓ ¿Î¡¤µÈ²¬ ÀµÏ¡ʹ⥨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë
¡ûShuichi Aizawa, Takatoshi Kusakabe, Tsuneyuki Okuyama, Shigetsugu Tsuruoka, Kibatsu Shinohara (NIHON KOSHUHA Co., Ltd.), Hiroshi Matsumoto, Hitoshi Kobayashi, Masakazu Yoshioka (KEK,HIGH ENERGY ACCELERATOR RESEARCH ORGANIZATION)
 
Boron Neutron Capture Therapy(BNCT)¤Ç¤Ï¼£ÎŸúΨ¤ò¾å¤²¤ë¤¿¤á¥Ç¥å¡¼¥Æ¥£¡¼Èæ¤Î¹â¤¤RF¥Ñ¥ë¥¹¤¬É¬ÍפǤ¢¤ë¡£BNCT¤Ç»ÈÍѤ¹¤ë¹â¼þÇÈÅÅÎϤϡ¢¼þÇÈ¿ô324MHz¤Ç¥Ô¡¼¥¯ÅÅÎÏ1.2MW¡¢Ê¿¶ÑÅÅÎϤÏ240kW¤Ë㤹¤ë¡£¡ÊJ-PARCÈæ¤ÇÌó2ÇÜ¡Ë ¤³¤ÎÂçÅÅÎϤǻÈÍѲÄǽ¤Ê¥³¥ó¥Ñ¥¯¥È¤ÊY·¿¥µ¡¼¥­¥å¥ì¡¼¥¿¤Î³«È¯¤ò¹Ô¤Ã¤¿¡£J-PARC¤Ç¼ÂÀӤΤ¢¤ë324MHz¡¡T·¿¥µ¡¼¥­¥å¥ì¡¼¥¿¤ò´ðËܤȤ·¥Õ¥§¥é¥¤¥È¤Î¥­¥å¡¼¥ê¡¼²¹ÅÙ¤ò¹â¤¤¤â¤Î¤ËÊѹ¹¤·¡¢¹¹¤Ë¥Õ¥§¥é¥¤¥È¤òÇö¤¯¤·¤ÆÂÑÊ¿¶ÑÅÅÎϤò2Çܤ˸þ¾å¤µ¤»¤¿¡£ÄãÅÅÎϻ¤Î·ë²ÌVSWR1.2¡¡ÁÞÆþ»¼º0.15dB¡¡Isolation20dB¡¡ÂÓ°èÉý3MHz¤¬ÆÀ¤é¤ì¤¿¡£ËܹƤǤϤ³¤Î¥µ¡¼¥­¥å¥ì¡¼¥¿¤ÎÀ߷ס¦À½ºî¡¦ÄãÅÅÎϻ¤Î·ë²Ì¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£
 
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SUP056
p.1011
SuperKEKB¥Ó¡¼¥à¾×ÆÍÅÀÍÑĶÅÁƳ4¶ËÅż§ÀÐ¥×¥í¥È¥¿¥¤¥×¤ÎÀ½ºî¤È»î¸³·ë²Ì
Construction and Cold Tests of the Prototypes of the Superconducting Quadrupole Magnets for the SuperKEKB IR

¡ûÍ­ËÜ Ì÷¡¤ÂçÆâ ÆÁ¿Í¡¤Åì ·ûÃË¡¤»³²¬ ¹­¡¤ÅÚ²° À¶À¡¡¤½¡ Àê¹ñ¡¤ÂçÌÚ ½ÓÀ¬¡ÊKEK¡Ë
¡ûYasushi Arimoto, Norihito Ohuchi, Norio Higashi, Hiroshi Yamaoka, Kiyosumi Tsuchiya, Zhanguo Zong, Toshiyuki Oki (KEK)
 
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SUP057
p.1015
SuperKEKBÍÑ¥Õ¥é¥Ã¥¯¥¹¥³¥ó¥»¥ó¥È¥ì¡¼¥¿ÅŸ»¤Î³«È¯
Development of Flux Concentrator Modulator for SuperKEKB

¡ûÌÀËÜ ¸÷À¸¡¤»æë ÂöºÈ¡¤Àß³Ú Å¯Éס¤ÃæÅç ·¼¸÷¡¤Ê¡ÅÄ Ìмù¡¤ËÜ´Ö Ç¡¤Æ»±à ¿¿°ìϺ¡ÊKEK¡Ë
¡ûMitsuo Akemoto, Takuya Kamitani, Tetsuo Shidara, Hiromitsu Nakajima, Shigeki Fukuda, Hiroyuki Honma, Shinichiro Michizono (KEK)
 
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p.1018
J-PARC¼ç¥ê¥ó¥°¤Î¹â·«ÊÖ¤·²½¤Î¤¿¤á¤Î¼çÅż§ÀÐÅŸ»¤Î¹½À®
Power Supply System of J-PARC Main Ring Main Magnets for High Repetition Rate Operation

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¡ûYuichi Morita, Yoshinori Kurimoto, Tetsushi Shimogawa, Fujio Naito, Shu Nakamura, Katsuya Okamura (KEK)
 
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p.1022
SuperKEKB¾×ÆÍÅÀ¿§¼ýº¹ÊäÀµÍÑĶÅÁƳ6¶ËÅż§ÀÐ¥·¥¹¥Æ¥à¤Î³«È¯
Development of Superconducting-Sextuple Magnet for Chromaticity Correction at Interaction Point on SuperKEKB

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¡ûYasushi Arimoto, Norito Ohuchi, Masanori Kawahi, Yoshiya Kondo, Zhanguo Zong, Kiyosumi Tsuchiya, Yasuhiro Makida, Hiroshi Yamaoka (KEK), Tetsuji Okamura (TIT)
 
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p.1025
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Fast verticak kicker system of NewSUBARU

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¡ûYoshihiko Shoji (University of Hyogo), Chikaori Mitsuda, Tatsurou Nakanishi, Yasuyuki Minagawa, Yasuhiro Takemura (JASRI)
 
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p.1028
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High speed switching circuits for next-generation accelerator

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¡ûYuki Kozasa, Sho Sato, Weihua Jiang (Nagaoka University of Technology), Akira Tokuchi (Pulsed Power Japan laboratory), Mitsuo Akemoto, Hiromitsu Nakajima (High Energy Accelerator Research Organization)
 
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SUP062
p.1033
SuperKEKB¼ç¥ê¥ó¥°Åż§ÀÐÀ½ºî¤Ë±÷¤±¤ë¥È¥é¥Ö¥ëÊó¹ð
Problems Found with the SuperKEKB Main Ring Magnets

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¡ûYasunobu Ohsawa, Hiromi Iinuma, Kazumi Egawa, Mika Masuzawa (KEK)
 
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Test demonstration of magnet power supply with the flying capacitor

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¡ûTetsushi Shimogawa, Yoshinori Kurimoto, Yuichi Morita, Fujio Naito, Shu Nakamura, Katsuya Okamura (KEK)
 
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p.1042
ILCºÇ½ª½¸Â«±Êµ×¼§ÀФο¶Ë¼§¾ì¬ÄêÍÑ¥í¡¼¥Æ¡¼¥Æ¥£¥ó¥°¥³¥¤¥ë¥·¥¹¥Æ¥à¤½¤Î2
Rotating Coil System for ILC Final Focus Magnet Quadrupole Part 2

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¡ûRyunosuke Kitahara, Yasuhiro Fuwa, Yoshihisa Iwashita (ICR, Kyoto University)
 
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SUP065
p.1045
¥Ó¡¼¥à¥¹¥¯¥ì¡¼¥Ñ¤Ë¤è¤ëÃßÀÑ¥ê¥ó¥°Ä¾ÀþÉô¤Î¥Ó¡¼¥à¥µ¥¤¥ºÂ¬Äê¤Î»î¤ß
Beam size measurement at SAGA-LS storage ring using a movable beam scraper

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¡ûTatsuo Kaneyasu, Yuichi Takabayashi, Yoshitaka Iwasaki, Shigeru Koda (SAGA Light Source)
 
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SUP066
p.1049
J-PARC¡¡RFQ¥Æ¥¹¥È¥¹¥¿¥ó¥ÉÍÑ¥Ó¡¼¥à¥â¥Ë¥¿¥ê¥ó¥°¥·¥¹¥Æ¥à
Beam monitor for RFQ test stand of J-PARC

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¡ûTomoaki Miyao, Tomofumi Maruta, Takashi Sugimura, Fujio Naito (KEK), Akihiko Miura, Yasuhiro Kondo, Takatoshi Morishita, Nobuo Ouchi, Hidetomo Oguri (JAEA)
 
J-PARC¥ê¥Ë¥¢¥Ã¥¯¤Ï400MeV¤Ø¤Î¥Ó¡¼¥à¤Î¥¨¥Í¥ë¥®¡¼¥¢¥Ã¥×¥°¥ì¡¼¥É¤ÈʹԤ·¤Æ¥Ó¡¼¥àÅÅή50mA¤Ç¤Î±¿Å¾¤òÌܻؤ·¤Æ¤¤¤ë¡£¤½¤Î¤¿¤á¡¢Ê¿À®24ǯÅÙ Ëö¤ËÀ½ºî¤¬´°Î»¤·¤¿50mAÂбþ¤ÎRFQ(Radio-Frequency-Quadrupole)¥ê¥Ë¥¢¥Ã¥¯¤ÎÀ­Ç½É¾²Á¤ò¹Ô¤¦ÀìÍѤÎRFQ¥Æ¥¹¥È¥¹¥¿¥ó¥É¤òÀ°È÷¤·¤¿¡£¤½¤ÎÃæ¤Ç²æ¡¹¤Ï¡¢¥Ó¡¼¥àÅÅή¤ò¬Äꤹ¤ë¤¿¤á¤ÎÅÅή¥â¥Ë¥¿(CT: Current-Tansformer)¤È¡¢TOF(Time-of-Flight)Ë¡¤Ë¤è¤ë¥Ó¡¼¥à¤Î¥¨¥Í¥ë¥®¡¼·× »»¤Ë»ÈÍѤ¹¤ë°ÌÁê¥â¥Ë¥¿(FCT: Fast-Current-Transformer)¤Ç¹½À®¤¹¤ë ¥â¥Ë¥¿¥ê¥ó¥°¥·¥¹¥Æ¥à¤ò¹½ÃÛ¤·¤¿¡£¸½ºß¡¢³Æµ¡´ï¤ÎÀ­Ç½¤ò³Îǧ¤¹¤ë¤¿¤á¤Î»î±¿Å¾¤ò¹Ô¤Ã¤Æ¤ª¤ê¡¢ËÜ¥·¥¹¥Æ¥à¤Ë¤Æ¥Ó¡¼¥à¥¨¥Í¥ë¥®¡¼µÚ¤Ó¥Ó¡¼¥àÆ©²áΨ¤Î´ðËܥǡ¼¥¿¤ò¼èÆÀ¤·¤¿¡£ËÜȯɽ¤Ç¤ÏËÜ¥â¥Ë¥¿¥ê¥ó¥°¥·¥¹¥Æ¥à¤Î¸½¾õ¤È¤È¤â¤Ë¡¢ÁýÀߤò´Þ¤àº£¸å¤ÎŸ˾¤Ë¤Ä¤¤¤Æ½Ò¤Ù¤ë¡£
 
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SUP067
p.1053
J-PARC 3-50 BT¤Î¥Ó¡¼¥à°ÌÃÖ¥â¥Ë¥¿Â¬Äê¤Î¬ÄêÀºÅ٤βþÁ±
Improvement of measurement accuracy of the beam position monitor at 3-50 BT J-PARC

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¡ûMasaki Tejima, Takeshi Toyama (KEK/J-PARC), Kotoku Hanamura (Mitsubishi Electric System & Service Co.,Ltd)
 
J-PARC ¤Î3-50 beam transport line¡Ê3-50 BT¡Ë¤Ï 3GeV rapid cycle synchrotron ¤«¤é main ring (MR) ¤Ø¤Î¥Ó¡¼¥àÍ¢Á÷Ï©¤Ç¤¢¤ë¡£º£¸åͽÄꤵ¤ì¤Æ¤¤¤ë750kW ÁêÅö¤ÎÂ綯ÅÙÍÛ»Ò¥Ó¡¼¥àÍøÍѤËÈ÷¤¨¤Æ¡¢MR¤Î¥Ó¡¼¥à¥í¥¹¤ò¶ËÎÏÍÞ¤¨¤ë¤¿¤á¤Ë¡¢3-50 BT¤Î¥ª¥×¥Æ¥£¥¯¥¹¤ò¥Ó¡¼¥à°ÌÃÖ¥â¥Ë¥¿¡ÊBPM¡Ë¤Ê¤É¤ò»È¤Ã¤Æ¡¢ÀºÌ©¤Ë¿ÇÃǤ¹¤ë¤¿¤á¤Î¬Ä꤬¹Ô¤ï¤ì¤Æ¤¤¤ë¡£ºÇ¶á¤Þ¤Ç¡¢¤½¤Î¥Ó¡¼¥à°ÌÃ֤ϡ¢¥Ó¡¼¥àÍ¢Á÷Ï©¤Î°ÌÃÖ¥â¥Ë¥¿¤Ç¤¢¤ë¤«¤é¡¢ºÂɸÃæ¿´¤Î¬ÄêÀºÅÙ¤òÊݾڤǤ­¤ì¤Ð½½Ê¬¤Ç¤¢¤ë¤È¤¤¤¦Íýͳ¤Ç¡¢°ì¼¡¤Î·¸¿ô¤Ç·×»»¤·¤Æ¤­¤¿¡£¤·¤«¤·¡¢¥ª¥×¥Æ¥£¥¯¥¹¿ÇÃǤǤϡ¢ºÂɸÃæ¿´¤«¤éÂ礭¤¯Î¥¤ì¤¿¥Ó¡¼¥à°ÌÃ֤άÄêÀºÅÙ¤¬½ÅÍפǤ¢¤ë¤Î¤Ç¡¢3¼¡¤Î¿¹à¼°¤Ë¤è¤ë¥Ó¡¼¥à°ÌÃÖ·×»»¤ò¹Ô¤¦¤è¤¦¤Ë²þÁ±¤·¤¿¡£ ¤Þ¤¿¡¢¥Ó¡¼¥à°ÌÃÖ¥â¥Ë¥¿¤Î¬ÄêÀºÅ٤ϡ¢4ÅŶ˿®¹æ¤Î¿®¹æÅÁÁ÷Ï©¤ÎÅŵ¤ÆÃÀ­¤ÎÊѲ½¤Ë¤è¤Ã¤Æ¡¢½ÐÎϱþÅú¤Î¥²¥¤¥ó¡¦¥Ð¥é¥ó¥¹¤ÎÈù̯¤ÊÊÑÆ°¤Î±Æ¶Á¤ò¼õ¤±¤ë¡£¤³¤Î¥²¥¤¥ó¤ò¹»Àµ¤¹¤ë¤¿¤á¤ËKEK-B¤Î·Ð¸³¤Ç¤½¤ÎÍ­¸úÀ­¤¬¾ÚÌÀ¤µ¤ì¤¿¡¢Beam based gain calibration¡ÊBBGC¡Ë¤Î¼êË¡¤ò3-50BT¤ÎBPM¤Ë¤âŬÍѤ·¤¿¡£ ËܹƤǤϡ¢3¼¡¤Î¿¹à¼°¤Ç·×»»¤µ¤ì¤¿¥Ó¡¼¥à°ÌÃ֤άÄêÀºÅÙ¤ÈBBGC¤ÎÊýË¡¤È·ë²Ì¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£
 
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SUP068
p.1057
S-LSR¤Ë¤ª¤±¤ë¿åÊ¿Êý¸þ¤Î¥ì¡¼¥¶¡¼ÎäµÑ¤Ë´ØÏ¢¤·¤¿¥·¥ó¥¯¥í¥È¥í¥ó¿¶Æ°
Synchrotron Oscillation relevant to Transverse Laser Cooling in S-LSR

¡û¿ÀÊÝ ¸÷°ì¡ÊµþÂ票¥Í¥ë¥®¡¼Íý¹©¸¦¡Ë¡¤ÁÛÅÄ ¸÷¡Ê·²ÇÏÂç³Ø½Åγ»Ò¸¦µæ¥»¥ó¥¿¡¼¡Ë¡¤ÃæÈø À¯ÉסÊÊü°å¸¦¡Ë¡¤É´¹ç ÍDzð¡ÊÆüËܸ¶¸¦¹âºê¸¦¡Ë¡¤ÆÜµÜ Âó¡ÊµþÂç²½¸¦¡Ë¡¤ÌîÅÄ ¾Ï¡ÊÊü°å¸¦¡Ë
¡ûKouichi Jimbo (Institute of Advanced Energy, Kyoto-U), Hikaru Souda (Heavy-ion Medical Center, Gunma-U), Masao Nakao (NIRS), Yousuke Yuri (TARRI, JAEA), Hiromu Tongu (ICR. Kyoto-U), Akira Noda (NIRS)
 
µþÅÔÂç³Ø²½³Ø¸¦µæ½ê¤Î¥¤¥ª¥óÃßÀÑ¥ê¥ó¥°S-LSR ¤Ë¤ª¤¤¤Æ¡¢¥¤¥ª¥ó¥Ó¡¼¥à¤ÈÊÂÁö¤·¤¿¥ì¡¼¥¶¡¼¤Ë¤è¤ê¡¢¥·¥ó¥¯¥í¡¦¥Ù¡¼¥¿¥È¥í¥ó·ë¹ç²¼¤Ë¤ª¤¤¤Æ¡¢RF¤Ç¥Ð¥ó¥Á¤µ¤ì¤¿¥Þ¥°¥Í¥·¥¦¥à¥¤¥ª¥ó¥Ó¡¼¥à¤Î¿åÊ¿Êý¸þ¤ÎÎäµÑ¤¬´û¤Ë¼Â¸½¤µ¤ì¤¿¡£[1] ¥Ð¥ó¥Á¤µ¤ì¤¿¥¤¥ª¥ó¥Ó¡¼¥à¤Ï¼ç¤È¤·¤Æ¸÷³ØŪÊýË¡¤Ç¿ÇÃǤµ¤ì¤Æ¤­¤¿¡£ °ìÄê¤Î¥ì¡¼¥¶¡¼½ÐÎϤǥӡ¼¥à²¹ÅÙ¤ò²¼¤²¤ë¤Ë¤Ï¥¤¥ª¥ó¿ô¤ò¸º¤é¤·¤ÆIntra Beam Scattering¤Ë¤è¤ë²ÃÇ®¤òÍÞÀ©¤¹¤ëɬÍפ¬¤¢¤ë¤¬¡¢¥¤¥ª¥ó¿ô¤¬¾¯¤Ê¤¤¾õÂ֤Ǥϸ÷³ØŪ¿ÇÃǤϺ¤Æñ¤Ë¤Ê¤ë¡£¥Ó¡¼¥à²¹ÅÙ¤¬¶Ë¤á¤ÆÄ㤯¤Ê¤ë¤È¡¢¥Ó¡¼¥à¤Ï¶õ´ÖÅŲÙÎΰè¤ò·Ð¤Æ·ë¾½²½¤¹¤ë¡£¥Ó¡¼¥à¤¬¶õ´ÖÅŲÙ(¥¼¥í¥¨¥ß¥Ã¥¿¥ó¥¹)Îΰè¤Ë㤹¤ë¤È¡¢¥·¥ó¥¯¥í¥È¥í¥ó¿¶Æ°¤Ï¤Ê¤¯¤Ê¤ë¤ÈͽÁÛ¤µ¤ì¤Æ¤¤¤ë¡£ ²æ¡¹¤Ï¥¹¥Ú¥¯¥È¥ëÃæ¤Ë¤ª¤¤¤Æ¡¢°ÂÄꤷ¤Æ¥·¥ó¥¯¥í¥È¥í¥ó¿¶Æ°¤ò´Ñ»¡¤Ç¤­¤ëÎΰ褬¤¢¤ë¤«Ä´¤Ù¡¢¤½¤ì¤ò¥Ó¡¼¥à¤¬¶õ´ÖÅŲÙÎΰè¤Ë㤷¤¿¤«¤É¤¦¤«¤ÎȽÃǤËÍøÍѤ¹¤ë¤³¤È¤ò¸¡Æ¤¤·¤Æ¤¤¤ë¡£¥·¥ó¥¯¥í¥È¥í¥ó¿¶Æ°¤Ï¡¢¥ê¥ó¥°Ãæ¤Ë¤¢¤ëĹÊý·Á¤ÎÊ¿¹ÔÊ¿ÈÄ·¿¤Î¥Ô¥Ã¥¯¥¢¥Ã¥×¤«¤é¤Î¥·¥°¥Ê¥ë¤ò¡¢¥¹¥Ú¥¯¥È¥é¥à¥¢¥Ê¥é¥¤¥¶¡¼¤Ç´Ñ»¡¤·¤Æ¤¤¤ë¡£¥Ó¡¼¥à¤¬¶õ´ÖÅŲÙÎΰè¤Ë¤Ê¤ë¤È¡¢¥·¥ó¥¯¥í¥È¥í¥ó¿¶Æ°¤Î¥·¥°¥Ê¥ë¤Ï¤Ê¤¯¤Ê¤ë¤È´üÂÔ¤µ¤ì¤ë¡£ [1] M. Nakao, T. Hiromasa, H. Souda, M. Tanabe, T. Ishikawa, H. Tongu, A. Noda, K. Jimbo, T. Shirai, M. Grieser, H. Okamoto, A. V. Smirnov, Physical Review Special Topics - Accelerator and Beams 15, 110102 (2012)
 
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p.1060
£Ê¡Ý£Ð£Á£Ò£Ã¡¡£Ò£Ã£Ó¤Î¥Ó¡¼¥à¥í¥¹¥â¥Ë¥¿¥·¥¹¥Æ¥à
Beam loss monitor system of J-PARC RCS

¡û»³ËÜ É÷³¤¡¤ÎÓ Ä¾¼ù¡¤È«»³ ½°°ìϺ¡¤º´Çì ÍýÀ¸Æ󡤴ä´Ö ͪʿ¡ÊÆüËܸ¶»ÒÎϸ¦µæ³«È¯µ¡¹½¡¡£Ê¡Ý£Ð£Á£Ò£Ã¥»¥ó¥¿¡¼¡Ë
¡ûKazami Yamamoto, Naoki Hayashi, Shuichiro Hatakeyama, Ryuji Saeki, Yuhei Iwama (J-PARC Center, JAEA)
 
J-PARC RCS¤ÏMW¥¯¥é¥¹¤Î½ÐÎϤÇÀ߷פ¬¹Ô¤ï¤ì¤Æ¤¤¤ë¡£¤³¤ÎÍͤÊÂ綯ÅÙ¤ÎÍۻҲî´ï¤Ë¤ª¤¤¤ÆºÇ¤âÌäÂê¤È¤Ê¤ë¤Î¤Ï¡¢¥Ó¡¼¥à¥í¥¹¤Ë¤è¤Ã¤Æ²Ã®´ïµ¡´ï¤ä¥È¥ó¥Í¥ë¤¬Êü¼Í²½¤·¡¢Êݼéºî¶È¤Ë»Ù¾ã¤ò¤­¤¿¤¹Íͤˤʤ뤳¤È¤Ç¤¢¤ë¡£¤è¤ê°ìÈ̤ˡ¢ÍۻҲî´ï¤Ë¤ª¤¤¤ÆµöÍƤµ¤ì¤ë¥Ó¡¼¥à¥í¥¹Î̤ζñÂÎŪ¤Ê»Øɸ¤È¤·¤Æ¤Ï1W/m¤¬Ìܰ¤Ȥµ¤ì¤Æ¤¤¤ë¡£¤·¤«¤·¤Ê¤¬¤é£Ò£Ã£Ó¤Ë¤ª¤¤¤Æ¤Ï¡¢¤½¤ì¤ÏÁ´¥Ó¡¼¥à¥Ñ¥ï¡¼¤ËÂФ¹¤ë³ä¹ç¤È¤·¤Æ¤Ï$10^{-4}$°Ê²¼¤Î¥ª¡¼¥À¡¼¤È¤¤¤¦Èó¾ï¤ËÈù¾®¤ÊÎ̤Ǥ¢¤ë¡£¤³¤Î¤è¤¦¤Ë¡¢Á´ÂΤ«¤é¤ß¤ë¤È¤´¤¯ÈùÎ̤ÎÊѲ½¤ò¸¡½Ð¤¹¤ë¾å¤Ç¤Ï¡¢¥Ó¡¼¥à¥í¥¹¥â¥Ë¥¿¤ÏÈó¾ï¤ËÍ­¸ú¤Ê¥Ä¡¼¥ë¤Ç¤¢¤ë¡£ËÜȯɽ¤Ç¤Ï¡¢£Ê¡Ý£Ð£Á£Ò£Ã¡¡3£Ç£åV¡¡£Ò£Ã£Ó¤Ç»ÈÍѤ·¤Æ¤¤¤ë¥Ó¡¼¥à¥í¥¹¥â¥Ë¥¿¥·¥¹¥Æ¥à¤Î¸½¾õ¤òÊó¹ð¤¹¤ë¡£
 
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SUP070
p.1065
¿åÃæÍÑ¿ÅÀÀþÎ̬Äê´ï¡Ö½½»ú·¿¥â¥Ë¥¿¡×¤Ë´Ø¤¹¤ëµ»½Ñ³«È¯
Development of a waterproof multi-sensor dosimetry system for particle therapy.

¡û¾¾²¼ ³¨Íý¡Ê»°É©Åŵ¡¡¡ÅÅÎÏ¥·¥¹¥Æ¥àÀ½ºî½ê¡Ë¡¤¶â°æ ãÌÀ¡Ê·²ÇÏÂç³Ø½Åγ»ÒÀþ°å³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë¡¤ÇßÅÄ ÃéÏ¡¤ÌçÅÄ °¡´õɧ¡¤ÌÚ²¼ ²Åµ×¡¤ÃæÀ¾ Àµ°ì¡¤ËÜÅÄ ÂÙ»°¡Ê»°É©Åŵ¡¡¡ÅÅÎÏ¥·¥¹¥Æ¥àÀ½ºî½ê¡Ë¡¤À¾Âô Çî»Ö¡¤ÎÓ ¿¿¾È¡Ê»°É©Åŵ¡¡¡Àèüµ»½ÑÁí¹ç¸¦µæ½ê¡Ë¡¤¸ÅÆ£ ±Ç¼¡¡Ê³ô¼°²ñ¼ÒŽÉŽØŽ¯Ž¸¡Ë
¡ûEri Matsushita (Mitsubishi Electric Corporation), Tatsuaki Kanai (Gunma University Heavy Ion Medeical Center), Tadakazu Umeda, Akihiko Kadota, Yoshihisa Kinoshita, Masakazu Nakanishi, Taizo Honda, Hiroshi Nishizawa, Masateru Hayashi (Mitsubishi Electric Corporation), Eiji Kotou (Noric)
 
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SUP071
p.1069
SPring-8¥Ö¡¼¥¹¥¿¡¼¥ê¥ó¥°µÚ¤Ó¥Ó¡¼¥à¥È¥é¥ó¥¹¥Ý¡¼¥È¥é¥¤¥ó¤Ë¤ª¤±¤ë¥«¥á¥é¥ê¥ó¥¯CCD¥«¥á¥é¤òÍѤ¤¤¿¥Ó¡¼¥à¥×¥í¥Õ¥¡¥¤¥ë²èÁü²òÀÏ
Beam profile analysis using the CCD camera with CameraLink in the SPring-8 booster ring and beam transport line

¡ûÃü£ËÜ Ï¹¬¡Ê¥¹¥×¥ê¥ó¥°¥¨¥¤¥È¥µ¡¼¥Ó¥¹(³ô)¡Ë¡¤ËþÅÄ »Ë¿¥¡¤ÀÄÌÚ µ£¡¤¿¢ÅÄ ÁÒÏ»¡¤º´¡¹ÌÚ Ìмù¡¤¿¼¸« ·ò»Ê¡Ê(¸øºâ)¹âµ±ÅÙ¸÷²½³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë¡¤ËÜ°æÑ£ ¹¸±û¡Ê¥¹¥×¥ê¥ó¥°¥¨¥¤¥È¥µ¡¼¥Ó¥¹(³ô)¡Ë¡¤¾¾ËÜ ¿òÇî¡Ê(¸øºâ)¹âµ±ÅÙ¸÷²½³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë¡¤ÌðȨ ÍΡʥ¹¥×¥ê¥ó¥°¥¨¥¤¥È¥µ¡¼¥Ó¥¹(³ô)¡Ë
¡ûKazuyuki Kajimoto (SPring-8 Service Co., Ltd.), Chikaori Mitsuda, Tsuyoshi Aoki, Souroku Ueda, Shigeki Sasaki, Kenji Fukami (JASRI), Teruo Honiden (SPring-8 Service Co., Ltd.), Takahiro Matsumoto (JASRI), Hirosi Yahata (SPring-8 Service Co., Ltd.)
 
SPring-8Æþ¼Í·Ï¤Î¥Ö¡¼¥¹¥¿¡¼¥ê¥ó¥°µÚ¤ÓÃßÀÑ¥ê¥ó¥°¤Ø¤Î¥Ó¡¼¥à¥È¥é¥ó¥¹¥Ý¡¼¥È¥é¥¤¥ó¤Ç¤Î¥Ó¡¼¥àµ°Æ»¡¢¥Ó¡¼¥à·Á¾õ¤Î¥Ç¡¼¥¿¡¼¼èÆÀ¤Ë¤Ï·Ö¸÷ÈǤ˥¢¥Ê¥í¥°¥Ó¥Ç¥ª¥«¥á¥é¤òÁȤ߹ç¤ï¤»¤¿¥â¥Ë¥¿¡¼¥·¥¹¥Æ¥à¤ò»ÈÍѤ·¤Æ¤­¤¿¡£¤½¤Î¤¿¤á¡¢ÃßÀÑ¥ê¥ó¥°¤Ø¤ÎÆþ¼Í¸úΨ¤òº¸±¦¤¹¤ë¥Ó¡¼¥àµ°Æ»µÚ¤Ó¥Ó¡¼¥à¥×¥í¥Õ¥¡¥¤¥ë¤ÎºÆ¸½À­¤Î¤¢¤ëÄ´À°¤ò³ÎÊݤ¹¤ë¤³¤È¡¢ÊÑÆ°¤òÄêÎÌŪ¤ËÀººº¤¬º¤Æñ¤Ç¤¢¤Ã¤¿¡£¤½¤³¤Ç¡¢¥Ó¡¼¥à¥×¥í¥Õ¥¡¥¤¥ë¥Ç¡¼¥¿¡¼¤òÄêÎ̲½¤·ÀºÌ©Â¬Äê¤ò²Äǽ¤Ë¤¹¤ë¤¿¤á¡¢¥È¥ê¥¬¡¼Æ±´ü¤Î¥Ç¥¸¥¿¥ëCCD¥«¥á¥é¤òÍѤ¤¤¿²èÁü¼èÆÀ¥·¥¹¥Æ¥à¤Î¹½ÃÛ¤ò¹Ô¤Ã¤¿¡£ CCD¥«¥á¥é¤Ë¤è¤ê¼èÆÀ¤µ¤ì¤¿¥Ç¥¸¥¿¥ë²èÁü¤Ï¥µ¡¼¥Ð¡¼¥³¥ó¥Ô¥å¡¼¥¿¡¼¤ØžÁ÷¤µ¤ìÊݸ¤µ¤ì¤ë¡£²Ã®´ï¤Î¥Ó¡¼¥àÄ´À°»þ¤Ë¤Ï¡¢¼èÆÀ¤µ¤ì¤¿²èÁü¥Ç¡¼¥¿¡¼¤ÎÌÜ»ë¤Ë¤è¤ë¥Ó¡¼¥à·Á¾õ¤ÎȽÃǤÈÄêÎÌŪ¤Ê¥Ó¡¼¥à°ÌÃ֤λ»½Ð¤òƱ»þ¤Ë¥ê¥¢¥ë¥¿¥¤¥à¤Ë¹Ô¤¦É¬Íפ¬¤¢¤ë¡£¥Ó¡¼¥à°ÌÃ֤λ»½Ð¤Ë¤ÏÌÜ»ëÍѾÈÌÀ¤Î¸÷¤¬Ë¸¤²¤È¤Ê¤ë¡£¸ÄÊ̤Υӡ¼¥à²èÁü¤Ë±þ¤¸¤Æ¾ÈÌÀ¤Î±Æ¶Á¤òʬΥ¤·¤Æ²èÁü½èÍý·×»»¤ò¹Ô¤¦¥·¡¼¥±¥ó¥¹¤ò³ÎΩ¤·¡¢²Ã®´ïÀ©¸æ¥×¥í¥°¥é¥à¤ÎÃæ¤Ë¥Ó¡¼¥à¥×¥í¥Õ¥¡¥¤¥ë¼«Æ°²òÀÏ¥×¥í¥°¥é¥à¤È¤·¤Æ¹½ÃÛ¤·¤¿¡£¤³¤ì¤Ë¤è¤êµ°Æ»Ä´À°¤ÎºÆ¸½À­¤ÈÄ´À°ÀºÅÙ¤¬²þÁ±¤Ç¤­¤¿¡£ ËÜ·ïȯɽ¤Ç¤Ï¡¢¤³¤Î²èÁü¼èÆÀ¤«¤é²èÁü²òÀϤޤǤÎή¤ì¤È¡¢¤½¤Î¾ÜºÙ¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£ º£¸å¡¢·Ö¸÷ÈǤȥ«¥á¥é¤È¤Î°ÌÃÖ´Ø·¸¤Ë¤è¤êȯÀ¸¤¹¤ë²èÁü¤Î¤æ¤¬¤ß¤òÊäÀµ¤·Â¬ÄêÀºÅ٤θþ¾å¤ò¿Þ¤ë¤È¤È¤â¤Ë¥Ó¡¼¥à¤Î²óž¾õÂÖ¤òµá¤á¤ë¤³¤È¤òͽÄꤷ¤Æ¤¤¤ë¡£
 
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p.1074
²Ä»ë¸÷¥Ó¡¼¥à¥â¥Ë¥¿¡¼¥é¥¤¥ó½éÃʥߥ顼¤ÎÇ®ÊÑ·ÁÊä½þ
Cancellation of thermal deformation effect of the initial mirror on the beam profile monitor line

¡û¾¾ËÜ ÂîÌ顤¾®ÎÓ ²ÖåÅ¡¤¾±»Ê Á±É§¡Êʼ¸Ë¸©Î©Âç³Ø¡¡¹âÅÙ¸¦¡Ë¡¤³§Àî ¹¯¹¬¡¤Ãݼ °é¹À¡Ê¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûTakuya Matsumoto, Karin Kobayasi, Yoshihiko Shoji (LASTI, Univ. of Hyogo), Yasuyuki Minagawa, Yasuhiro Takemura (JASRI)
 
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p.1078
¥¹¥¯¥ê¡¼¥ó¥â¥Ë¥¿¡¼¤Ë¤ª¤±¤ë¿¿¶õÆâ¶õ´Ö¥Þ¥¹¥¯¤òÍѤ¤¤¿Coherent-OTR¸÷½üµî¤Î²þÎÉ
Improvement to eliminate Coherent-OTR light for the screen monitor of SACLA

¡û¾¾¸¶ ¿­°ì¡Ê¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë¡¤Á°ºä ÈæϤÏ¡ÊÍý¸¦ Êü¼Í¸÷²Ê³ØÁí¹ç¸¦µæ¥»¥ó¥¿¡¼¡Ë¡¤°æ¾å Ǧ¡Ê¥¹¥×¥ê¥ó¥°¥¨¥¤¥È¥µ¡¼¥Ó¥¹(³ô)¡Ë¡¤ÂçÃÝ Íº¼¡¡ÊÍý¸¦ Êü¼Í¸÷²Ê³ØÁí¹ç¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûShin-ichi Matsubara (JASRI), Hirokazu Maesaka (RIKEN SPring-8 Center), Shinobu Inoue (SPring-8 Service Co., Ltd.), Yuji Otake (RIKEN SPring-8 Center)
 
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SUP074
p.1082
¿¥Á¥ã¥ó¥Í¥ë¥Ç¥¸¥¿¥¤¥¶¤òÍѤ¤¤¿J-PARC RCS¥Þ¥ë¥Á¥ï¥¤¥ä¥×¥í¥Õ¥¡¥¤¥ë¥â¥Ë¥¿¤Î¥Ç¡¼¥¿¼èÆÀ·Ï¤Î³«È¯
Development of Data Aqcuisition System of J-PARC RCS Multi-wire Profile Monitor using Multi-Channel Digitizer

¡ûÈ«»³ ½°°ìϺ¡¤µÈËÜ À¯¹°¡ÊÆüËܸ¶»ÒÎϸ¦µæ³«È¯µ¡¹½ J-PARC¥»¥ó¥¿¡¼¡Ë
¡ûShuichiro Hatakeyama, Masahiro Yoshimoto (JAEA J-PARC Center)
 
J-PARC RCS(Rapid Cycling Synchrotoron)¤Ç¤Ï¡¢Æþ¼Í¥Ó¡¼¥à¤Î¼´¹ç¤ï¤»¤ò¹Ô¤¦°Ù¤ËL3BT¥é¥¤¥ó¤Ë2Âæ¡¢¼þ²ó¥ê¥ó¥°¤Î²ÙÅÅÊÑ´¹¥Õ¥©¥¤¥ë¤ÎÁ°¸å¤Ë3Âæ¡¢H0¥À¥ó¥×¥é¥¤¥ó¤Ë2Âæ¤Î·×7Âæ¤Î¥Þ¥ë¥Á¥ï¥¤¥ä¥×¥í¥Õ¥¡¥¤¥ë¥â¥Ë¥¿(MWPM)¤¬ÀßÃÖ¤µ¤ì¤Æ¤¤¤ë¡£º£Ç¯Å٤ˤÏLINAC¤«¤é¤Î¥Ó¡¼¥à¥Ñ¥ï¡¼¤¬Áý¶¯¤µ¤ì¤ëͽÄê¤Ç¡¢Æþ¼Íµ¡´ïÉÕ¶á¤Î¥í¥¹¤¬¤è¤ê¿¼¹ï¤Ë¤Ê¤ë¤È¹Í¤¨¤é¤ì¤ë¡£¤½¤³¤ÇÆþ¼Íµ°Æ»¤ò¤è¤ê¾ÜºÙ¤Ë¬Äꤹ¤ë¤¿¤á¿·¤¿¤Ë1Âæ¤ÎMWPM¤¬H0¥À¥ó¥×¥é¥¤¥ó¤ËÀßÃÖ¤µ¤ì¤ë¡£¤½¤Î¥Ç¡¼¥¿½èÍý·Ï¤È¤·¤Æº£²ó¿·¤·¤¯Â¿¥Á¥ã¥ó¥Í¥ë¤Î¥Ç¥¸¥¿¥¤¥¶¡¼¤òÍѤ¤¤¿¥·¥¹¥Æ¥à¤ò³«È¯¤·¤¿¡£ÆÃħ¤È¤·¤Æ°ÊÁ°¤Î¥Þ¥ë¥Á¥×¥ì¥¯¥µ¤òÍѤ¤¤¿ÊýË¡¤ÈÈæ³Ó¤·¤ÆS/NÈæ¤ò²þÁ±¤·¤¿¤³¤È¡¢Æ³Æþ¥³¥¹¥È¤òÍÞ¤¨¤é¤ì¤ë¤³¤È¤ò½Ò¤Ù¤ë¡£¤Þ¤¿´û¸¤ÎMWPM2¤òÍѤ¤¤¿¥Ó¡¼¥à»î¸³¤Î·ë²Ì¤â½Ò¤Ù¤ë¡£
 
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SUP075
p.1085
J-PARC MR BPM¤Î½¤Íý¡¦²þÎÉ
Repair and improvement of the J-PARC MR BPM

¡û³°»³ µ£¡¤²¬ÅÄ ²íÇ·¡¤¼êÅç ¾»¸Ê¡¤¶¶ËÜ µÁÆÁ¡Ê¹â¥¨¥Í¸¦¡Ë¡¤È«»³ ½°°ìϺ¡Ê¸¶¸¦¡Ë¡¤²Ö¼ ¹¬ÆÆ¡Ê»°É©Åŵ¡¥·¥¹¥Æ¥à¡¦¥µ¡¼¥Ó¥¹¡Ë
¡ûTakeshi Toyama, Masashi Okada, Masaki Tejima, Yoshinori Hashimoto (KEK), Shuichiro Hatakeyama (JAEA), Kotoku Hanamura (Mitsubishi Electric System & Service Co.,Ltd)
 
2012ǯ²Æ´ü¥·¥ã¥Ã¥È¥À¥¦¥óÃæ¤Ë½èÍý²óÏ©¤ÎÂçÉýÊѹ¹¤ò¹Ô¤Ã¤¿¡£ ¸º¿ê´ïÍѤΥê¥ì¡¼¤Î¤¦¤Á¸Î¾ã²Õ½ê¤Î¸ò´¹¡¢ ¤ª¤è¤Ó¡¢¥Ó¡¼¥à¶¯ÅÙ¤ÎÁý¶¯¤ËÂбþ¤¹¤ë¤¿¤á¤Ë³°ÉÕ¸º¿ê´ï¤Î¼èÉդǤ¢¤ë¡£ ¥ê¥ì¡¼¸Î¾ã¤Ï¡¢¿ÌºÒ¸å¤ÎĹ´üÄä»ß»þ¤ËÀÜÅÀÉÔÎɤòµ¯¤³¤·¤¿¤â¤Î¤È¹Í¤¨¤é¤ì¤ë¡£ ÀÜÅÀÄñ¹³¤¬°Û¾ï¤ËÂ礭¤¯¤Ê¤Ã¤¿¥Ü¡¼¥É¡ÊÁ´ÂΤÎÌóȾ¿ô¡Ë¤ò¸ò´¹¤·¤¿¡£ ³°ÉÕ¸º¿ê´ï¤Ë¤Ä¤¤¤Æ¤Ï°Ê²¼¤Î¤è¤¦¤Ê·Ð°Þ¤Ç¤¢¤ë¡£ BPM¥·¥¹¥Æ¥àÀß·×Åö½é¤Ë¡¢BPM¸¡½Ð´ï¤Î³°ÉÕ¥³¥ó¥Ç¥ó¥µ¤Ë¤è¤ê ½ÐÎÏ¿®¹æ¤¬Àß·×¥Ó¡¼¥à¶¯ÅÙ¤ÇÌó4V¤È¤Ê¤ë¤è¤¦¤Ë¤¹¤ëͽÄê¤À¤Ã¤¿¡£ ¤·¤«¤·¡¢½é´ü¥Ó¡¼¥à¥³¥ß¥Ã¥·¥ç¥ó¥Ë¥ó¥°¤Îɴʬ¤Î°ì¶¯Å٤Υӡ¼¥à¤Ç¤Ï¿®¹æ¶¯ÅÙ¤¬ÉÔ­¤¹¤ë¤¿¤á¡¢ µÞ¢³°ÉÕ¥³¥ó¥Ç¥ó¥µ¤ò̵¤¯¤·¤¿¡£ ¤½¤Î¸å¤Î¥Ó¡¼¥à¶¯ÅÙ¤ÎÁý¶¯¤Ë¤è¤ê¡¢¿®¹æ¶¯ÅÙ¤¬½èÍý²óÏ©¤Î¾å¸Â¤Ë¶á¤Å¤¤¤¿¤¿¤á¡¢ ³°ÉÕ¸º¿ê´ï¤ò¼è¤êÉÕ¤±¤¿¡£LPF¤òÆ⢤·¤¿¤³¤È¤Ë¤è¤ê¡¢¿®¹æÇÈ·Á¤¬¡¢ ½¾Íè¤Î¥Ó¡¼¥àÅÅή¤ÎÈùʬÇÈ·Á¤«¤é¡¢¥Ó¡¼¥àÅÅή¤Ë¶á¤¤ÇÈ·Á¤Ë¤Ê¤ê¡¢ ½èÍý²óÏ©¤Î¥À¥¤¥Ê¥ß¥Ã¥¯¥ì¥ó¥¸¤Ë¤È¤Ã¤Æ¤âÍ­Íø¤Ë¤Ê¤Ã¤Æ¤¤¤ë¡£ Êѹ¹Á°¸å¤Ç¤ÎÆ°ºî¾õ¶·¡¢°ÌÃÖʬ²òǽ¤Ë¤Ä¤¤¤Æ¤âÊó¹ð¤¹¤ë¡£
 
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SUP076
p.1090
SPring-8¥Ö¡¼¥¹¥¿¡¼¥ê¥ó¥°µÚ¤Ó¥Ó¡¼¥à¥È¥é¥ó¥¹¥Ý¡¼¥È¥é¥¤¥ó¤Ë¤ª¤±¤ë¥«¥á¥é¥ê¥ó¥¯¤òÍѤ¤¤¿¥Ó¡¼¥à¥×¥í¥Õ¥¡¥¤¥ë¥â¥Ë¥¿¡¼¥·¥¹¥Æ¥à¤Î¹½ÃÛ
Construction of the beam profile monitor system with CameraLink in the SPring-8 booster ring and beam transport line

¡ûËÜ°æÑ£ ¹¸±û¡Ê¥¹¥×¥ê¥ó¥°¥¨¥¤¥È¥µ¡¼¥Ó¥¹(³ô)¡Ë¡¤ËþÅÄ »Ë¿¥¡¤ÀÄÌÚ µ£¡¤¿¢ÅÄ ÁÒÏ»¡Ê(¸øºâ)¹âµ±ÅÙ¸÷²½³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë¡¤Ãü£ËÜ Ï¹¬¡Ê¥¹¥×¥ê¥ó¥°¥¨¥¤¥È¥µ¡¼¥Ó¥¹(³ô)¡Ë¡¤º´¡¹ÌÚ Ìмù¡¤¿¼¸« ·ò»Ê¡¤¾¾ËÜ ¿òÇî¡Ê(¸øºâ)¹âµ±ÅÙ¸÷²½³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûTeruo Honiden (SPring-8 Service Co., Ltd.), Chikaori Mitsuda, Tsuyoshi Aoki, Souroku Ueda (JASRI), Kazuyuki Kajimoto (SPring-8 Service Co., Ltd.), Shigeki Sasaki, Kenji Fukami, Takahiro Matsumoto (JASRI)
 
SPring-8Æþ¼Í·Ï¥Ö¡¼¥¹¥¿¡¼¥ê¥ó¥°µÚ¤ÓÃßÀÑ¥ê¥ó¥°¤Ø¤Î¥Ó¡¼¥à¥È¥é¥ó¥¹¥Ý¡¼¥È¥é¥¤¥ó¤Î¥Ó¡¼¥àµ°Æ»¡¢¥Ó¡¼¥à·Á¾õ¤Î¥Ç¡¼¥¿¼èÆÀ¤Ë¤Ï·Ö¸÷ÈĤ˥¢¥Ê¥í¥°¥Ó¥Ç¥ª¥«¥á¥é¤òÁȤ߹ç¤ï¤»¤¿¥â¥Ë¥¿¡¼¥·¥¹¥Æ¥à¤ò»ÈÍѤ·¤Æ¤­¤¿¡£¤½¤Î¤¿¤á¡¢ÃßÀÑ¥ê¥ó¥°¤Ø¤ÎÆþ¼Í¸úΨ¤òº¸±¦¤¹¤ë¥Ó¡¼¥àµ°Æ»¤È¥Ó¡¼¥à¥×¥í¥Õ¥¡¥¤¥ë¤ÎºÆ¸½À­¤Î¤¢¤ëÄ´À°¤Î³ÎÊÝ¡¢ÊÑÆ°¤ÎÄêÎÌŪ¤ÊÀººº¤¬º¤Æñ¤Ç¤¢¤Ã¤¿¡£¤½¤³¤Ç¡¢¥Ó¡¼¥à¥×¥í¥Õ¥¡¥¤¥ë¥Ç¡¼¥¿¤òÄêÎ̲½¤·ÀºÌ©Â¬Äê¤ò²Äǽ¤Ë¤¹¤ë°Ù¡¢¥È¥ê¥¬¡¼Æ±´ü¤Î¥Ç¥¸¥¿¥ëCCD¥«¥á¥é¤òÍѤ¤¤¿²èÁü¼èÆÀ¥·¥¹¥Æ¥à¤Î¹½ÃÛ¤ò¹Ô¤Ã¤¿¡£ ¥¨¥ê¥¢Ëè¤Ë¥«¥á¥é¥ê¥ó¥¯¥·¥¹¥Æ¥à¤ÎÃæ·Ñ¶É¡¢¥»¥ì¥¯¥¿¡¼¡¢¥µ¡¼¥Ð¡¼¥³¥ó¥Ô¥å¡¼¥¿ÀßÃÖ¤·¡¢Ãæ±ûUNIX¥Û¥¹¥È¥µ¡¼¥Ð¡¼¤è¤êÁ´53Âæ¤ÎOTRµÚ¤Ó·Ö¸÷ÈÄ¥Ó¡¼¥à¥×¥í¥Õ¥¡¥¤¥ë¥â¥Ë¥¿¡¼²èÁü¼èÆÀ¤È¡¢VME·Ðͳ¤Ç¤Î·Ö¸÷ÈĤζîÆ°¤Ê¤É¤òÀ©¸æ¤¹¤ë¤³¤È¤ò²Äǽ¤Ë¤·¤Æ¤¤¤ë¡£¥·¥¹¥Æ¥à¤Ï¥¨¥ê¥¢Æâ¤Ë¤Æ¥«¥á¥é¥ê¥ó¥¯¥±¡¼¥Ö¥ë¤Þ¤¿¤Ï¡¢¸÷¥Õ¥¡¥¤¥Ð¡¼¥±¡¼¥Ö¥ë¤ÇÀܳ¤µ¤ì¡¢¥¨¥ê¥¢Ëè¤Î¥µ¡¼¥Ð¡¼¥³¥ó¥Ô¥å¡¼¥¿¤Ë¤Ï¥¨¥ê¥¢Æâ¤ÇÅý°ì¤µ¤ì¤¿ÃÙ±ä»þ´Ö¤ò»ý¤Ä¥¬¥ó¥È¥ê¥¬¡¼¥â¥¸¥å¡¼¥ë¤òÍʤ·¥Ó¡¼¥à¤ÈƱ´ü¤·¤¿²èÁü¼èÆÀ¤¬½ÐÍè¤ë¡£ ¤³¤ì¤é¤Î¥·¥¹¥Æ¥à¤Î¹½Ãۤȥ«¥á¥é¦¤Î¸÷³Ø·Ï¤Î²þ½¤¤Ë¤è¤ê¡¢¾å°ÌGUI¥·¥¹¥Æ¥à¤«¤é¥¢¥Ê¥í¥°¥Ó¥Ç¥ª¥«¥á¥é¥·¥¹¥Æ¥à¤ÈƱÅù¤Î¥ê¥¢¥ë¥¿¥¤¥àÀ­¤Ç¥Ó¡¼¥àƱ´ü¤·¤¿²èÁü¼èÆÀ¤¬²Äǽ¤È¤Ê¤Ã¤¿¡£ ËÜ·ïȯɽ¤Ç¤Ï¡¢¥«¥á¥é¥ê¥ó¥¯·Á¼°¤òÍѤ¤¤¿¥Ó¡¼¥à¥×¥í¥Õ¥¡¥¤¥ë¥â¥Ë¥¿¡¼¥·¥¹¥Æ¥à¤Î³µÍפȥ·¥¹¥Æ¥à¤Î±¿ÍѾܺ٤ˤĤ¤¤ÆÊó¹ð¤ò¹Ô¤¦¡£
 
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SUP077
p.1094
HTc-SQUID¥Ó¡¼¥àÅÅή¥â¥Ë¥¿¡¼¤Ë¤ª¤±¤ë¼§µ¤¥·¡¼¥ë¥É¤Î¶¯²½
Reinforcement of Magnetic Shield for High-Tc SQUID Beam Current Monitor

¡ûÅÏîµ ´Ä¡¤Ê¡À¾ Ī¾°¡¤²ÃÀ¥ ¾»Ç·¡¤¾å³À³° ½¤°ì¡ÊÍý¸¦¡Ë¡¤°ð¿¹ Áº£ ¹¯°ì¡Ê¥Æ¥£¡¼¥¤¡¼¥Ô¡¼³ô¼°²ñ¼Ò¡Ë
¡ûTamaki Watanabe, Nobuhisa Fukunishi, Masayuki Kase, Osamu Kamigaito (RIKEN), Satoru Inamori, Kouichi Kon (TEP Corporation)
 
Íý¸¦¿Î²Ê²Ã®´ï¸¦µæ¥»¥ó¥¿¡¼¤Ë¤ª¤¤¤Æ¡¢½Å¥¤¥ª¥ó¥Ó¡¼¥à¤ÎDCÅÅή¤ò¡¢ÈóÇ˲õ¤Ç¹â´¶Å٤ˬÄꤹ¤ë¤¿¤á¤Ë¡¢Ç¾¼§¤ä¿´¼§¤Î¬Äê¤ËÍøÍѤµ¤ì¤ëĶÅÁƳÎ̻Ҵ³¾ÄÁÇ»ÒSQUID (Superconducting Quantum Interference Device)¤ò±þÍѤ·¤¿¡¢¥Ó¡¼¥àÅÅή¥â¥Ë¥¿¡¼¤Î³«È¯¤ò¹Ô¤Ã¤Æ¤­¤¿¡£Æäˡ¢º£Ç¯½©¤«¤é¤Î¼ÂÍѱ¿Å¾¤òÌܻؤ·¤Æ¡¢¼§µ¤¥·¡¼¥ë¥É¤ÎÂçÉý¤Ê¶¯²½¤ò¹Ô¤Ã¤¿¡£¥Ó¡¼¥àÅÅή¤Î¬Äêʬ²òǽ¤Ï¡¢¿®¹æÂл¨²»Èæ¤Ç·è¤Þ¤ë¤Î¤Ç¡¢Åż§ÀФòÎ弧¤·¤Æ¤¤¤ëÂç½ÐÎϤÎÅŸ»¥é¥¤¥ó¤¬È¯À¸¤¹¤ë¡¢¼§µ¤¥Î¥¤¥º¤Î¥·¡¼¥ë¥É¤ò¶¯²½¤¹¤ë»ö¤Ë¤è¤ê¡¢Â¬Äêʬ²òǽ¤Î¸þ¾å¤ò¿Þ¤Ã¤¿¡£°ì¤Ä¤Ï¡¢Ä¶ÅÁƳÂΤˤè¤ë´°Á´È¿¼§À­¤È¶¯¼§À­ÂΤˤè¤ë¼§µ¤¼×ÊäÎÆÃÀ­¤ò³è¤«¤·¤¿¥Ï¥¤¥Ö¥ê¥Ã¥É¼§µ¤¥·¡¼¥ë¥É¤Î³«È¯¤Ç¤¢¤ë¡£HTc-SQUID¤Ï¡¢¶¯¼§À­ÂΤǤ¢¤ë¥ß¥å¡¼¥á¥¿¥ëºà¤Ë¤è¤Ã¤ÆÀ½ºî¤µ¤ì¤¿ÎäµÑ¥Õ¥©¥ë¥À¡¼Æâ¤Ë¡¢¤Û¤Ü´°Á´¤Ëʤ¤ï¤ì¤ë¤è¤¦¤Ë¼ý¤á¤é¤ì¤¿¡£¤µ¤é¤Ë¡¢HTc-SQUID¤Ï¹â²¹Ä¶ÅÁƳÅÅή¥»¥ó¥µ¡¼¾å¤ËÀßÃÖ¤µ¤ì¤Æ¤¤¤ë¤¿¤á¡¢¥Þ¥¤¥¹¥Ê¡¼¸ú²Ì¤Ë¤è¤ê¹â¤¤¼§µ¤¥·¡¼¥ë¥É¸ú²Ì¤¬ÆÀ¤é¤ì¤ë¡£¤³¤Î¥·¡¼¥ë¥É¤ÎÀ߷פˤϡ¢Í­¸ÂÍ×ÁÇË¡¤òÍѤ¤¤¿¡¢Åż§¾ì·×»»¥×¥í¥°¥é¥àTOSCA¤òÍѤ¤¤¿¡£¤µ¤é¤Ë¡¢»°¼´¤Î¥Õ¥é¥Ã¥È¥²¡¼¥È¥»¥ó¥µ¡¼¤Ë¤è¤ê¡¢¼§µ¤¥Î¥¤¥º¤ò¬Äꤷ¡¢»°¼´¤Î¥Õ¥£¡¼¥É¥Ð¥Ã¥¯¥³¥¤¥ë¤òÍѤ¤¤Æ¡¢¼§µ¤¥Î¥¤¥º¤ò¥­¥ã¥ó¥»¥ë¤¹¤ëÊý¼°¤ò²Ã¤¨¤Æ¤¤¤ë¡£¼§µ¤¥Î¥¤¥º¤ò¼þÇÈ¿ôÎΰè¤ÇʬÀϤ¹¤ë¤È¡¢50 HzÀ®Ê¬¤¬ºÇ¤â¶¯¤¤¤¬¡¢¤³¤ì¤é¤Î¼§µ¤¥·¡¼¥ë¥É¤Î¶¯²½¤Ë¤è¤ê¡¢Ìó100²¯Ê¬¤Î1¤Þ¤Ç¼§µ¤¥Î¥¤¥º¤ò¸º¿ê¤µ¤»¤ë»ö¤ËÀ®¸ù¤·¤¿¡£
 
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SUP078
p.1098
£Ê¡Ý£Ð£Á£Ò£Ã¥ê¥Ë¥¢¥Ã¥¯¤Ë¤ª¤±¤ë¥Ó¡¼¥à¥í¥¹ÍۻҤγÑÅÙʬÉÛ
Angular Distributions of Beam Loss Protons at J-PARC Linac

¡ûº´¹Ã ÇîÇ·¡Ê¸¶»ÒÎϵ¡¹½¡¡£Ê¡Ý£Ð£Á£Ò£Ã¥»¥ó¥¿¡¼¡Ë¡¤´ÝÅÄ Êþ»Ë¡ÊKEK¡¡£Ê¡Ý£Ð£Á£Ò£Ã¥»¥ó¥¿¡¼¡Ë¡¤»°±º ¾¼É§¡Ê¸¶»ÒÎϵ¡¹½¡¡£Ê¡Ý£Ð£Á£Ò£Ã¥»¥ó¥¿¡¼¡Ë
¡ûHiroyuki Sako (JAEA J-PARC Center), Tomofumi Maruta, Akihiko Miura (KEK J-PARC Center)
 
J-PARC¥ê¥Ë¥¢¥Ã¥¯¤Ç¤ÏACS(Annular-Coupled Structure linac)Éô¤Ë¤ª¤¤¤ÆºÇÂçÎ̤Υӡ¼¥à¥í¥¹¤¬´Ñ¬¤µ¤ì¤Æ¤¤¤ë¡£¤³¤Î¥Ó¡¼¥à¥í¥¹¤ÏH-¥Ó¡¼¥àγ»Ò¤¬¥Ó¡¼¥à¥À¥¯¥ÈÆâ¤Î»Äᥬ¥¹¤Ë¤è¤êÅÅÎ¥¤·H0¤È¤Ê¤ê¤³¤ÎH0¤¬¥À¥¯¥ÈÊɤòÆ©²á¤·¡¢Æ©²á»þ¤Ë¤µ¤é¤ËÅÅÎ¥¤·¤ÆH+¤È¤·¤Æ´Ñ¬¤µ¤ì¤ë¡£²æ¡¹¤Ï¤³¤ÎH+¤ò²ÙÅÅγ»Ò¤ÎÈôÀפȤ·¤ÆºÆ¹½À®¤¹¤ë¤¿¤á¤Ë¡¢4mm³Ñ¡Ê¤Þ¤¿¤Ïľ·Â4mm¤Î´Ý·¿¡Ë¤Î¥·¥ó¥Á¥ì¡¼¥·¥ç¥ó¥Õ¥¡¥¤¥Ð16Ëܤ«¤é¹½À®¤µ¤ì¤ë64mmx64mm¤ÎÌÌÀѤΥ·¥ó¥Á¥ì¡¼¥·¥ç¥ó¸¡½Ð´ï¤ò£¸ÌÌʤ٤¿¸¡½Ð´ï¤ò³«È¯¤·¤¿¡£¤³¤ì¤é¤Î¸¡½Ð´ï¤Ï¿âľ°ÌÃÖ¬ÄêÍÑ£´ÌÌ¡¢¿åÊ¿°ÌÃÖ¬ÄêÍÑ£´Ì̤«¤é¤Ê¤ê¡¢¤½¤ì¤¾¤ì£²Ì̤ϥӡ¼¥à¾åή¦¡¢»Ä¤ê¤Î£²Ì̤ϥӡ¼¥à²¼Î®¤ËÀßÃÖ¤·¡¢¾åή¦¤È²¼Î®Â¦¤Îµ÷Î¥¤ò1.5m¤È¤ë¤³¤È¤Ë¤è¤êÈô¹Ô»þ´Ö¤ò¬Äꤷ¡¢ÍÛ»Ò¤ò¼±Ê̤¹¤ë¡£¤µ¤é¤Ë¾åή¦£´ÌÌ¡¢²¼Î®Â¦£´Ì̤Ϥ½¤ì¤¾¤ì¿åÊ¿¡¢¿âľ°ÌÃÖ¤ò¥¹¥Æ¥Ã¥Ô¥ó¥°¥â¡¼¥¿¤Ë¤è¤ê°ÜÆ°²Äǽ¤Ç¤¢¤ë¡£ 2012ǯ£±£°·î¤è¤ê2013ǯ£µ·î¤Þ¤ÇÍÛ»ÒÈôÀפγÑÅÙʬÉÛ¤ò¬Äꤷ¤¿¥Ç¡¼¥¿¤Ë´ð¤Å¤­¡¢³ÑÅÙʬÉۤβòÀÏ·ë²Ì¤òÊó¹ð¤¹¤ë¡£
 
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SUP079
p.1102
SPring-8ʬ³ä·¿¥¢¥ó¥¸¥å¥ì¡¼¥¿¡¦¥Ó¡¼¥à¥é¥¤¥ó¤Î¸÷°ÌÃÖ¥â¥Ë¥¿¤Î¹»Àµ
Calibration of X-ray Beam Position Monitor for a Segmented Undulator Beamline at SPring-8

¡ûÀÄÌø ½¨¼ù¡Ê¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë¡¤¥Ð¥í¥ó ¥¢¥ë¥Õ¥ì¥Ã¥É¡ÊÍý¸¦¡¡SPring-8¥»¥ó¥¿¡¼¡Ë¡¤Áá²µ½÷ ¸÷°ì¡¤¹âͺ ¾¡¡¤²¼ºê µÁ¿Í¡Ê¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë¡¤Ä¹Ã«Àî À¿¡Ê¥¹¥×¥ê¥ó¥°¥¨¥¤¥È¥µ¡¼¥Ó¥¹¡Ë¡¤¹â¶¶ ľ¡Ê¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûHideki Aoyagi (JASRI/SPring-8), Alfred Baron (RIKEN SPring-8 Center), Kouichi Soutome, Masaru Takao, Yoshito Shimosaki (JASRI/SPring-8), Makoto Hasegawa (SPring-8 Service ), Sunao Takahashi (JASRI/SPring-8)
 
SPring-8¤Ç¤Ï¡¢30ËÜ;¤ê¤Î¥¢¥ó¥¸¥å¥ì¡¼¥¿¡¦¥Ó¡¼¥à¥é¥¤¥ó¤¬²ÔƯ¤·¤Æ¤ª¤ê¡¢¤½¤Î¤¹¤Ù¤Æ¤Î¥Ó¡¼¥à¥é¥¤¥ó¤Ë¤ª¤¤¤Æ¸÷°ÌÃÖ¥â¥Ë¥¿¤¬ÍøÍѤµ¤ì¤Æ¤¤¤ë¡£¤³¤Î¸÷°ÌÃÖ¥â¥Ë¥¿¤Ï¡¢¸÷ÅÅ»ÒÊü½Ð·¿¤ò¸¡½Ð¸¶Íý¤È¤¹¤ë¤â¤Î¤Ç¡¢£´Ëç¤Î¥Ö¥ì¡¼¥É·¿¸¡½ÐÁǻҤò¥Ó¡¼¥à¡¦¥×¥í¥Õ¥¡¥¤¥ë¤Î¿þ¤ËÇÛÃÖ¤µ¤»¡¢¿®¹æ¤ÎÇÛʬÈæ¤ËÊäÀµ·¸¿ô¤ò¾è¤¸¤ë¤³¤È¤Ë¤è¤Ã¤Æ¥Ó¡¼¥à°ÌÃ֤ξðÊó¤òÆÀ¤Æ¤¤¤ë¡£¤³¤ì¤Þ¤Ç¤Î¥¢¥ó¥¸¥å¥ì¡¼¥¿¤Ï¡¢£±ËܤΥӡ¼¥à¥é¥¤¥óÅö¤¿¤ê£±Âæ¡¢¼ã¤·¤¯¤Ï¡¢¶áÀܤ¹¤ë£²Âæ¤Ç¹½À®¤µ¤ì¤Æ¤¤¤¿¡£¤³¤Î¾ì¹ç¤Ë¤Ï¡¢¾åµ­ÊäÀµ·¸¿ô¤Î¹»Àµ¤Ï¡¢¥Ó¡¼¥à¤ò¼ÂºÝ¤ËÊѰ̤µ¤»¤ë¤Î¤Ç¤Ê¤¯¡¢Ìϵ¼Åª¤Ë¸÷°ÌÃÖ¥â¥Ë¥¿¤Î¸¡½ÐÉô¤ò¾å²¼¡¦º¸±¦¤Ë°ÜÆ°¤µ¤»¤ë¤³¤È¤ÇÂåÂؤ¹¤ë¤³¤È¤¬½ÐÍ褿¡£¤·¤«¤·¤Ê¤¬¤é¡¢Íý¸¦ Î̻ҥÀ¥¤¥Ê¥ß¥¯¥¹¡¦¥Ó¡¼¥à¥é¥¤¥óBL43LXU¤Ç¤Ï¡¢º£Ç¯ÅÙ¤è¤ê¹âÅÙ²½¤µ¤ì¡¢SPring-8ÃßÀÑ¥ê¥ó¥°Ä¹Ä¾ÀþÉô¤ËÁ´Ä¹5¥á¡¼¥È¥ë¤ÇÆÈΩ¤ËGapÁàºî¤¬¤Ç¤­¤ë¥¢¥ó¥¸¥å¥ì¡¼¥¿¤¬Ìó10¥á¡¼¥È¥ë´Ö³Ö¤Ç3ÂæÀßÃÖ¤µ¤ì¤ë¤³¤È¤È¤Ê¤Ã¤¿¡£¤½¤Î·ë²Ì¡¢¸÷¸»Ãæ¿´¤è¤ê35m²¼Î®¤Î¸÷°ÌÃÖ¥â¥Ë¥¿¤¬¡¢Æ±»þ¤Ë3Âæ¤Î¥¢¥ó¥¸¥å¥ì¡¼¥¿¤«¤é¤ÎÊü¼Í¸÷¤Î±Æ¶Á¤ò¼õ¤±¡¢¤³¤ì¤Þ¤ÇÄ̤ê¤ÎÊäÀµ·¸¿ô¹»Àµ¤ÎÊý¼°¤¬»È¤¨¤Ê¤¯¤Ê¤Ã¤¿¡£¤½¤³¤Ç¡¢BL43LXU¤Ç¤Ï¡¢ÅŻҥӡ¼¥àµ°Æ»¤ò³Æ¥¢¥ó¥¸¥å¥ì¡¼¥¿¤Î°ÌÃÖ¤ÇÆÈΩ¤ËÊѰ̤µ¤»¤ë¤³¤È¤Ë¤è¤ê¡¢ÊäÀµ·¸¿ô¤ò¹»Àµ¤·¤¿¡£ËÜȯɽ¤Ç¤Ï¡¢¹»Àµ¤Î¼ê½ç¡¢¹»Àµ·ë²Ì¡¢µÚ¤Ó¡¢¤³¤ì¤Þ¤Ç¤Î¹»ÀµÊýË¡¤¬Å¬ÍѽÐÍè¤Ê¤«¤Ã¤¿¸¶°ø¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£
 
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SUP080
p.1106
J-PARC MR¤Ë¤ª¤±¤ëEPICS IOC¤Î¥½¥Õ¥È¥¦¥§¥¢¥Ä¡¼¥ë¥­¥Ã¥È¤Î¹¹¿·
Upgrade of software toolkits for EPICS Input Output Controllers in J-PARC Main Ring

¡û»³ÅÄ ½¨±Ò¡ÊKEK / J-PARC¥»¥ó¥¿¡¼¡Ë
¡ûShuei Yamada (KEK / J-PARC center)
 
J-PARC Main Ring started operation in 2008. Its control system is developed based on EPICS toolkit running on Linux. Input Output Controllers have been using EPICS 3.14.7 and Scientific Linux 4. Upgrades to the latest versions of EPICS and Scientific Linux are planned since the support for Scientific Linux 4 was ended. This article describes status and prospects of the upgrade.
 
13:00 - 15:00 
SUP081
p.1109
RIBFÀ©¸æ·Ï¤Ë¤ª¤±¤ë²¾ÁÛ²½µ»½Ñ¤òÍѤ¤¤¿¥·¥¹¥Æ¥àÀ߷פȱ¿ÍÑ
System Design and Implementation using Virtualization Technology for RIBF Control System

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¡ûAkito Uchiyama, Misaki Komiyama, Nobuhisa Fukunishi (RIKEN Nishina Center)
 
RIBFÀ©¸æ·Ï¤Ï¼ç¤ËEPICS(Experimental Physics and Industrial Control System)¤òÍѤ¤¤¿Ê¬»¶À©¸æ¥·¥¹¥Æ¥à¤Ç¹½ÃÛ¤µ¤ì¤Æ¤¤¤ë¡£RIBF¤ÎÁ°¿È¤Ç¤¢¤ëRARF¤Ç¤Ï¡¢¥µ¡¼¥Ð¤ËHP-UX, EPICS IOC (Input/Output Controller)¤ËvxWorks¤òºÎÍѤ·¤Æ2001ǯº¢¤è¤ê±¿ÍѤ¬³«»Ï¤µ¤ì¤¿¡£¤½¤Î¸åEPICS R3.14¤è¤êLinux¤¬¥µ¥Ý¡¼¥È¤µ¤ì¤¿¤¿¤á¡¢RIBFÀ©¸æ·Ï¤Ç¤Ï¥µ¡¼¥Ð¡¢EPICS IOC¤È¤â¤ËOS¤ËLinux¤òºÎÍѤ¹¤ë¥±¡¼¥¹¤¬Â¿¤¯¤Ê¤Ã¤¿¡£ 2008ǯ¤Ë¤ÏNFS (Network File System)¤ÎÍͤʽÅÍפʥµ¡¼¥Ó¥¹¤Îͽ´ü¤»¤ÌÄä»ß¤òËɤ°ÌÜŪ¤Ç¡¢¥ª¡¼¥×¥ó¥½¡¼¥¹¥½¥Õ¥È¥¦¥§¥¢¤Ç¤¢¤ëDRBD, Heartbeat¤òÍѤ¤¤¿¹â²ÄÍÑÀ­¥·¥¹¥Æ¥à¤Î±¿ÍѤò³«»Ï¤·¤¿¡£¤½¤Î¸å¥µ¡¼¥ÐÂÑÍÑǯ¿ô¤¬·Ð²á¤·¤¿»ö¤òÇطʤˡ¢¹¹¿·¸å¤Î¿·¥·¥¹¥Æ¥à¤Ç¤Ï¹â²ÄÍÑÀ­¤À¤±¤Ç¤Ê¤¯¥µ¡¼¥Ð¥ê¥½¡¼¥¹¤Î±¿ÍѸúΨ¤Î¸þ¾å¤ò¼Â¸½¤µ¤»¤ë¤¿¤á¡¢¶¦Í­¥¹¥È¥ì¡¼¥¸¤ËNAS¡¢²¾Á۴Ķ­¤ËVMware vSphere¤òºÎÍѤ·¤Æ¥·¥¹¥Æ¥à¤òÀ߷ס¢ËÜǯÅÙ¤è¤ê±¿ÍѤò³«»Ï¤·¤¿¡£¸½ºß¡¢²¾Á۴Ķ­¤ÇÄ󶡤·¤Æ¤¤¤ë¥µ¡¼¥Ó¥¹¤ÏDNS(Domain Name System),¡¡HTTP, PostgreSQL, MySQL, EPICS CA (Channel Access) gateway, EPICS IOC¤Ç¤¢¤ë¡£ ËܲñµÄ¤Ç¤Ï¥·¥¹¥Æ¥àÀ߷פȸ½ºß¤Î±¿ÍѾõ¶·¤ò¾ÜºÙ¤ËÊó¹ð¤¹¤ë¡£
 
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SUP082
p.1113
KEKÅÅ»ÒÍÛÅÅ»ÒÆþ¼Í´ï¤ÎÀ©¸æ¥Í¥Ã¥È¥ï¡¼¥¯¹¹¿·
Upgrade of KEK Linac Control Network System

¡ûÁðÌî »ËϺ¡¤¹©Æ£ ÂóÌï¡Ê»°É©Åŵ¡¥·¥¹¥Æ¥à¥µ¡¼¥Ó¥¹¡Ê³ô¡Ë¡Ë¡¤¸ÅÀî ÏÂϯ¡¤º´Æ£ À¯Â§¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë
¡ûShiro Kusano, Takuya Kudou (Mitsubishi Electric System & Service Co.,Ltd.), Kazuro Furukawa, Masanori Satoh (KEK)
 
KEK¤ÎÅÅ»ÒÍÛÅÅ»ÒÆþ¼Í´ï¤Ï¡¢4¤Ä¤Î°Û¤Ê¤ë¥ê¥ó¥°¡ÊKEKBÅÅ»Ò/ÍÛÅŻҡ¢PF¡¢PF-AR¡Ë¤Ø¥Ó¡¼¥à¤ò°ÂÄê¤Ë¶¡µë¤·¤Æ¤­¤¿¡£Ä¹´ü´Ö¤Ë¤ï¤¿¤ê²ÄÍÑÀ­¤Î¹â¤¤¥Ó¡¼¥à¤ò¶¡µë¤¹¤ë¤¿¤á¤Ë¤Ï¡¢¥í¡¼¥«¥ëÀ©¸æµ¡´ï¤ª¤è¤Ó¥µ¡¼¥Ð·×»»µ¡´Ö¤Î°ÂÄê¤Ê¥Í¥Ã¥È¥ï¡¼¥¯ÄÌ¿®¤¬ÉԲķç¤Ç¤¢¤ë¡£2011ǯ¤ÎÅìÆüËÜÂç¿ÌºÒ¤Ë¤è¤ê¡¤¥Í¥Ã¥È¥ï¡¼¥¯¥·¥¹¥Æ¥à¤Î°ìÉô¤¬Èï³²¤ò¼õ¤±¤¿¡£¤Þ¤¿¡¤SuperKEKB¤Ë¸þ¤±¤¿Æþ¼Í´ï¤Î¹âÅÙ²½¤ò¿ä¿Ê¤·¤Æ¤¤¤ë¤¿¤á¡¤¹âÀ­Ç½¤«¤Ä¿®ÍêÀ­¤Î¹â¤¤¥Í¥Ã¥È¥ï¡¼¥¯¥·¥¹¥Æ¥à¤Ø¤Î¹¹¿·¤ò¤ª¤³¤Ê¤Ã¤¿¡£ËܹƤǤϡ¢¥Í¥Ã¥È¥ï¡¼¥¯¥·¥¹¥Æ¥à¤Î¹¹¿·¤ª¤è¤Ó¥Í¥Ã¥È¥ï¡¼¥¯´Æ»ë¥·¥¹¥Æ¥à¤Ë¤Ä¤¤¤Æ¾Ü¤·¤¯Êó¹ð¤¹¤ë¡£
 
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p.1116
²¾ÁÛ²½PC´Ä¶­¤òÍѤ¤¤¿²Ã®´ïÀ©¸æ¥ª¥Ú¥ì¡¼¥¿¥³¥ó¥½¡¼¥ë
The operator console for accelerator control systems on a virtual machine.

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¡ûKeisuke Nakao, Takeshi Sakai, Ken Hayakawa (LEBRA)
 
¡¡ÆüËÜÂç³ØÅÅ»ÒÀþÍøÍѸ¦µæ»ÜÀß(LEBRA)¤Î125MeV linac¤ÏPC¥Ù¡¼¥¹¤ÎÀ©¸æ¥·¥¹¥Æ¥à¤òºÎÍѤ·¤Æ¤¤¤ë¡£ ²Ã®´ï¤Î¥ª¥Ú¥ì¡¼¥¿¡¼¥³¥ó¥½¡¼¥ëµÚ¤Ó¡¢ÊиþÅż§ÀС¢FEL¶¦¿¶´ï¥ß¥é¡¼Åù¡¢Â¿¤¯¤Î¥³¥ó¥Ý¡¼¥Í¥ó¥È¤¬PC¤ò²ð¤·¤ÆÀ©¸æ¤µ¤ì¤Æ¤¤¤ë¡£»ÔÈΤÎPC¤Ï¡¢²Á³Ê¤Ï°Â¤¤¤¬¿®ÍêÀ­¤¬Ä㤯¡¢¿ôǯ¤Ë£±Å٤ϸξ㤷¡¢»þ¤Ë¤ÏÍøÍѼ¸³¤Ë»Ù¾ã¤ò¤­¤¿¤¹¤³¤È¤â¤¢¤ê¡¢·ü°Æ¤È¤Ê¤Ã¤Æ¤¤¤ë¡£¹¹¿·ºî¶È¤ÇºÇ¤â»þ´Ö¤¬¤«¤«¤ë¤Î¤¬¡¢¥Ï¡¼¥É¥¦¥§¥¢¤Î¹½À®¤¬ÊѤï¤ë¤³¤È¤Ë¤è¤ë´Ä¶­¤ÎºÆ¹½ÃÛºî¶È¤Ç¤¢¤ë¤¬¡¢PC¤Î¥Á¥Ã¥×¥»¥Ã¥È¤äCPU¡¢¼þÊÕµ¡´ïÎà¤Î¿Ê²½¤ÏÆü¿Ê·îÊâ¤Ç¡¢¸Î¾ã»þ¤Ë¹¹¿·»þ¤ÈƱ¤¸¹½À®¤Î¥Ñ¡¼¥Ä¤ò¹ØÆþ¤¹¤ë¤³¤È¤ÏÆñ¤·¤¤¡£ ¶áǯ¡¢CPU¤Î¥Þ¥ë¥Á¥³¥¢²½¡¢¥á¥â¥ê¤Î¹â®²½¡¢Äã²Á³Ê²½¤Ë¤è¤ê¡¢PC¾å¤ÇPC¤ò¥¨¥ß¥å¥ì¡¼¥·¥ç¥ó¤¹¤ë²¾ÁÛ²½µ»½Ñ¤¬°ìÈÌŪ¤Ë¤Ê¤Ã¤Æ¤¤¤ë¡£¤³¤Î¤è¤¦¤Ê²¾ÁÛ²½¤µ¤ì¤¿PC¤Ï¡¢É¸½àŪ¤Ê¥Í¥Ã¥È¥ï¡¼¥¯¥«¡¼¥É¤È¥¹¥È¥ì¡¼¥¸¤Ç¹½À®¤µ¤ì¤Æ¤ª¤ê¡¢²¾ÁÛ¥Þ¥·¥ó¤«¤é¸«¤¨¤ë¥Ï¡¼¥É¥¦¥§¥¢¤Î¼ÂÂ֤ϥ½¥Õ¥È¥¦¥§¥¢¤Ç¤¢¤ë¤¿¤á¤Ë¡¢¼Â¹Ô´Ä¶­¤ÎÊѲ½¤ò¾®¤µ¤¯ÍÞ¤¨¤ë¤³¤È¤¬¤Ç¤­¤ë¡£¤Þ¤¿¡¢²¾ÁÛ²½¤µ¤ì¤¿¥¹¥È¥ì¡¼¥¸¤Î¼ÂÂ֤ϡ¢¥Õ¥¡¥¤¥ë¤Ê¤Î¤Ç¡¢´Ä¶­¹½ÃÛ»þ¤Î¥¹¥È¥ì¡¼¥¸¥Õ¥¡¥¤¥ë¤ò¥Ð¥Ã¥¯¥¢¥Ã¥×¤·¤Æ¤ª¤±¤Ð¡¢Ã»»þ´Ö¤Ç¥·¥¹¥Æ¥à¤òÉüµì¤µ¤»¤ë¤³¤È¤¬¤Ç¤­¤ë¡£ ËÜȯɽ¤Ç¤Ï¡¢²¾Á۴Ķ­²¼¤Ë¤ª¤±¤ë²Ã®´ï¤ª¤è¤Ó¥³¥ó¥Ý¡¼¥Í¥ó¥È¤Î¥ª¥Ú¥ì¡¼¥¿¡¼¥³¥ó¥½¡¼¥ë¤ò²¾ÁÛ²½¤¹¤ë¤³¤È¤Ë¤è¤ëÍøÅÀ¡¢ÌäÂêÅÀ¤òµÄÏÀ¤¹¤ë¡£
 
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p.1118
SPring-8Àþ·¿²Ã®´ï¥Ó¡¼¥à°ÌÃÖ¥â¥Ë¥¿¡¼ÍÑƱ´ü¥Ç¡¼¥¿¼ý½¸¥·¥¹¥Æ¥à¤Î¹¹¿·
Upgrade of the event-synchronized data acquisition system for the SPring-8 linac BPMs

¡ûÁýÅÄ ¹äÀµ¡¤¿¢ÅÄ ÁÒÏ»¡¤À¶Æ» ÌÀÃË¡¤¾¾ËÜ ¿òÇÌøÅÄ ¸¬°ì¡Ê¡Ê¸øºâ¡Ë¹âµ±ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûTakemasa Masuda, Souroku Ueda, Akio Kiyomichi, Takahiro Matsumoto, Kenichi Yanagida (JASRI)
 
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p.1122
J-PARC RF¥¤¥ª¥ó¸»¡õRFQ III¥Æ¥¹¥È¥¹¥¿¥ó¥É¤ÎÀ©¸æ·Ï¤Î¹½ÃÛ
Construction of Control System for J-PARC RF Ion Source & RFQ III Test Stand

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¡ûShinpei Fukuta (Mitsubishi Electric System & Service Co., Ltd), Yuki Sawabe (JAEA), Takahiro Suzuki, Tatsuya Ishiyama, Masato Kawase (Mitsubishi Electric System & Service Co., Ltd), Yuichi Ito, Yuko Kato, Akinobu Yoshii, Nobuhiro Kikuzawa, Nobuo Ouchi (JAEA)
 
J-PARC LINAC ¤Ï¡¢2014ǯ¤Ë¥»¥·¥¦¥àź²Ã¹â¼þÇȶîÆ°Éé¿åÁÇ¥¤¥ª¥ó¸»¡ÊRF¥¤¥ª¥ó¸»¡Ë¤Î¥¤¥ó¥¹¥È¡¼¥ë¤¬Í½Äꤵ¤ì¤Æ¤¤¤ë¡£¤Þ¤¿¡¢Æ±¤¸¤¯2014ǯ¤Ë¸½ºß¤ÎRFQ¤ËÂؤ¨¤ÆRFQ III¤Ø¤Î´¹Áõ¤âͽÄꤵ¤ì¤Æ¤¤¤ë¡£¤³¤ì¤é¤Îµ¡´ï¤Î¥¤¥ó¥¹¥È¡¼¥ë¤ËÈ÷¤¨¤Æ¡¢¸½ºßJ-PARC LINACÅï¤Î¥¯¥é¥¤¥¹¥È¥í¥ó½àÈ÷¼¼¤Ë¤Æ¡¢RF¥¤¥ª¥ó¸»¤ÈRFQ III¤Î¶¦Æ±¤Î¥Æ¥¹¥È¥¹¥¿¥ó¥É¤òÁȤߡ¢¥Ó¡¼¥à²Ã®»î¸³¤ò¹Ô¤¦¤Ù¤¯½àÈ÷¤ò¿Ê¤á¤Æ¤¤¤ë¡£¥Æ¥¹¥È¥¹¥¿¥ó¥É¤ÏRF¥¤¥ª¥ó¸»¤ÈRFQ III¡¢¤½¤ì¤é¤ò·Ò¤°BT¥é¥¤¥ó¤Ç¹½À®¤µ¤ì¤Æ¤ª¤ê¡¢¹ç¤ï¤»¤Æ¿¿¶õµ¡´ï¤ä»Í¶ËÅż§ÀС¢³Æ¼ï¥Ó¡¼¥à¥â¥Ë¥¿¤¬ÀßÃÖ¤µ¤ì¤Æ¤¤¤ë¡£ J-PARCÀ©¸æ¥°¥ë¡¼¥×¤Ç¤Ï¡¢¤³¤ì¤é¥Æ¥¹¥È¥¹¥¿¥ó¥É¤¬¼ÂºÝ¤ËÉé¿åÁÇ¥Ó¡¼¥à¤ò3MeV¤Þ¤Ç²Ã®¤·¤Æ¥Ó¡¼¥à¥À¥ó¥×¤Ø¤ÈƳ¤¯¡È²Ã®´ï¡É¤Ç¤¢¤ë¤³¤È¤«¤é¡¢J-PARC²Ã®´ï¤ÈƱÅù¤Î²Ã®´ïÀ©¸æ´Ä¶­¤¬É¬ÍפǤ¢¤ë¤È¹Í¤¨¡¢À©¸æ·Ï¤ò¥Ç¥¶¥¤¥ó¤·¤¿¡£¶ñÂÎŪ¤Ë¤Ï¡¢µ¡´ï¤òÊݸ¤ë°Ù¤ÎMPS¡ÊMachine Protection System¡Ë¤ÎƳÆþ¤äµ¡´ï¤ò±ó³ÖÀ©¸æ¤¹¤ë°Ù¤ÎEPICS´Ä¶­¤Î¼ÂÁõ¡¢³Æ²Ã®´ï¹½À®µ¡´ï¤Ø¥¿¥¤¥ß¥ó¥°¿®¹æ¤òÁ÷¤ë°Ù¤Î¥¿¥¤¥ß¥ó¥°¥·¥¹¥Æ¥à¤Î¹½ÃۤǤ¢¤ë¡£¤³¤ì¤é¤Ë²Ã¤¨¤Æ¥Ó¡¼¥à¥é¥¤¥ó¤ÎCT¤ò´Æ»ë¤·²áÅ٤Υӡ¼¥àÅÅή¤ÎȯÀ¸¤òÀ©¸Â¤¹¤ë°Ù¤ÎÅÅή¥â¥Ë¥¿¤âƳÆþ¤·¡¢°ÂÁ´¤Ë¥Ó¡¼¥à²Ã®»î¸³¤ò¹Ô¤¨¤ë¤è¤¦¤Ë¤·¤Æ¤¤¤ë¡£ ËÜȯɽ¤Ç¤Ï¡¢J-PARC LINAC¤Ë¤ª¤±¤ëRF¥¤¥ª¥ó¸»¡õRFQ III¤Î¶¦Æ±¥Æ¥¹¥È¥¹¥¿¥ó¥É¤ÎÀ©¸æ·Ï¤Î¹½ÃۤˤĤ¤¤ÆÊó¹ð¤¹¤ë¡£
 
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SUP086
p.1126
J-PARC¥ê¥Ë¥¢¥Ã¥¯À©¸æ¿®¹æʬÇÛ¥·¥¹¥Æ¥à¤Î²þ¤
Upgrade of Control Signal Distribution System at J-PARC Linac

¡ûÆó¥ÄÀî ·òÂÀ¡¤·ê¸« ¾»»°¡¤¾®ÎÓ Å´Ì顤Êý »Ö¹â¡¤Ê¡°æ ͤ¼£¡¤Æ»±à ¿¿°ìϺ¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë¡¤°ËÆ£ ͺ°ì¡¤µÆß· ¿®¹¨¡¤º´Æ£ ʸÌÀ¡¤¼Äºê ¿®°ì¡ÊÆüËܸ¶»ÒÎϸ¦µæ³«È¯µ¡¹½¡Ë¡¤ÎëÌÚ Î´ÍΡʻ°É©Åŵ¡¥·¥¹¥Æ¥à¥µ¡¼¥Ó¥¹³ô¼°²ñ¼Ò¡Ë
¡ûKenta Futatsukawa, Shozo Anami, Tetsuya Kobayashi, Zhigao Fang, Yuji Fukui, Shinichiro Michizono (KEK), Yuichi Ito, Nobuhiro Kikuzawa, Fumiaki Sato, Shinichi Shinozaki (JAEA), Takahiro Suzuki (Mitsubishi Electric System & Service Co. ,Ltd)
 
J-PARC²Ã®´ïÁ´ÂΤΥ¿¥¤¥ß¥ó¥°¥·¥¹¥Æ¥à¤È¤·¤Æ, 12MHz¥¯¥í¥Ã¥¯, 50Hz¥È¥ê¥¬, ¥¿¥¤¥×¥³¡¼¥É¤È¸Æ¤Ð¤ì¤ëÀ©¸æ¥ï¡¼¥É¿®¹æ¤Î3¼ïÎà¤Î¿®¹æ¤¬»ÈÍѤµ¤ì¤Æ¤¤¤ë¡£¤½¤ì¤é¤Î¿®¹æ¤Ï, Ãæ±ûÀ©¸æ¼¼¤ÇÀ¸À®¤µ¤ì, ¸÷¿®¹æ¤Ç³Æ²Ã®´ï»ÜÀߤËʬÇÛ¤µ¤ì¤ë¡£¥ê¥Ë¥¢¥Ã¥¯¤Ç¤â, ÃϾåÉô¤Î¥¯¥é¥¤¥¹¥È¥í¥ó¥®¥ã¥é¥ê¤Î¾åήÉô¤Ç³Æ¿®¹æ¤ò¼õ¤±¼è¤ê, ¤½¤³¤Çʬ´ô¤µ¤ì, ³Æ¥¹¥Æ¡¼¥·¥ç¥ó¤ËʬÇÛ¤µ¤ì¤ë¡£¤¿¤À¤·, ¤³¤³¤Ç¤Îʬ´ô¡¦Ê¬ÇÛ¥·¥¹¥Æ¥à¤Ï, ¸÷¿®¹æ¤òO/E¥â¥¸¥å¡¼¥ë¤Ç¼õ¿®¤·¤ÆÅŵ¤¿®¹æ¤ËÊÑ´¹¤·, FANOUT¥â¥¸¥å¡¼¥ë¤ò»ÈÍѤ·¤ÆÅŵ¤Åª¤Ëʬ´ô, ¤½¤ì¤Î¿®¹æ¤òE/O¥â¥¸¥å¡¼¥ë¤ÇºÆÅÙ¸÷¿®¹æ¤ËÊÑ´¹¤·¤Æ³Æ¥¹¥Æ¡¼¥·¥ç¥ó¤ËʬÇÛ¤¹¤ë¤È¤¤¤¦Èó¸úΨŪ¤Ê¹½À®¤È¤Ê¤Ã¤Æ¤¤¤¿¡£¤³¤³¤Ç¤Ï, ¿Âç¤Ê¥â¥¸¥å¡¼¥ë¿ô¤òɬÍפȤ·¤¿¤¿¤á¤ËÅÙ¡¹¤Î¸Î¾ã»öÎ㤬¤¢¤ê, Î٤ˤϲ¹ÅÙ¤ËÉÒ´¶¤ÊLLRF¤Î¥é¥Ã¥¯¤¬Ç¼Æþ¤µ¤ì¤Æ¤¤¤¿¤³¤È¤â¤¢¤êÇÓÇ®¤Ê¤É¤¬ÌäÂê¤Ë¤Ê¤Ã¤¿¡£¤½¤³¤Ç, 2013ǯ¤Î²Æµ¨¥·¥ã¥Ã¥È¥À¥¦¥óÃæ¤Ë¸÷¥¢¥ó¥×¤È¸÷¥«¥×¥é¤ò»ÈÍѤ·¤¿¥·¥¹¥Æ¥à¤òƳÆþ¤¹¤ëͽÄê¤Ç¤¢¤ë¡£¤³¤ÎƳÆþ¤Ë¤è¤ê¥·¥ó¥×¥ë¤Ê¥·¥¹¥Æ¥à¹½À®¤È¤Ê¤ê, ¥È¥é¥Ö¥ë¿ô¤òÄ㸺¤Ç¤­¤ë¤È´üÂԤǤ­¤ë¡£
 
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SUP087
p.1130
J-PARCÃÙ¤¤¼è¤ê½Ð¤·¤Ë¤ª¤±¤ë¥¹¥Ô¥ë¹½Â¤¤Î¸¦µæ
The Research of Spill Structure For J-PARC Slow Extraction

¡ûÌÚ¼ ÂöϺ¡¤²¬Â¼ ¾¡Ì顤ÇòÊÉ µÁµ×¡¤²¼Àî ů»Ê¡¤ÉÚß· Àµ¿Í¡¤ÃæÀî ½¨Íø¡¤ÉðÆ£ μÂÀϺ¡¤Ìø²¬ ±É°ì¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë¡¤À¶Æ» ÌÀÃˡʹ⵱ÅÙ¸÷²Ê³Ø¸¦µæ¥»¥ó¥¿¡¼¡Ë
¡ûTakuro Kimura, Katsuya Okamura, Yoshihisa Shirakabe, Tetsushi Shimogawa, Masahito Tomizawa, Hidetoshi Nakagawa, Ryotaro Muto, Eiichi Yanaoka (KEK), Akio Kiyomichi (SPring-8/JASRI)
 
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p.1134
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Construction of an accelerator interlock system using a low-cost, reduced-wiring interface

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¡ûHiroshi Ogawa, Ryoichi Suzuki, Brian O'rourke, Atsushi Kinomura, Nagayasu Oshima, Toshiji Nishijima (Research Institute of Instrumentation Frontier, AIST), Yuji Kasai (Information Technology Research Institute, AIST)
 
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p.1138
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Development of Operator Intervening System for remote Accelerator diagnostics and support

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¡ûAkito Uchiyama (Sokendai), Kazuro Furukawa (KEK), Yoshihide Higurashi, Takahide Nakagawa (RIKEN Nishina Center)
 
²Ã®´ïÀ©¸æ¤Ë¤ª¤¤¤Æ±ó³Ö¤«¤é¤Îµ¡´ïÀ©¸æ¤¬É¬ÍפȤʤë¾ì¹ç¤¬¤¢¤ë¡£Î㤨¤Ð¡¢¼¡À¤Âå²Ã®´ï¤Ç¤¢¤ëILC (International Linear Collider)¤ò»Ï¤á¤È¤·¤¿Â絬ÌÏ¥×¥í¥¸¥§¥¯¥È¤Ïͽ»»¡¢¥Þ¥ó¥Ñ¥ï¡¼¡¢±¿ÍѤˤª¤¤¤Æ¹ñºÝ¶¨ÎϤǹԤï¤ì¤ë¡£¤½¤·¤Æ²¿¤é¤«¤Î¹×¸¥¤¬¤¢¤Ã¤¿°Ê¾å¡¢À©¸æ¼¼°Ê³°¤Ë¼«¹ñ¤«¤éÁõÃ֤δƻë¤äÀ©¸æ¤¬É¬Íפˤʤ롢¤È¹Í¤¨¤é¤ì¤ë¡£¤Þ¤¿²Ã®´ï¤Î¥³¥ó¥Ý¡¼¥Í¥ó¥È¤Ë¤è¤Ã¤Æ¤ÏĹ´ü´Ö¤Î°ÂÄꤷ¤¿¥Ó¡¼¥à¶¡µë¤Î°Ù¡¢½ÏÎý¼Ô¤Î¶Ë¤á¤Æ¥·¥Ó¥¢¤Ê¥Á¥å¡¼¥Ë¥ó¥°¤ä¥È¥é¥Ö¥ë»þ¤ÎÂбþ¤¬É¬Íפˤʤ륱¡¼¥¹¤¬¤¢¤ë¡£°ìÊý¤Ç¿¿¶õÅÙ¤ä¥Ó¡¼¥àÅÅή¤ÎÃÍÅù¤ò¥â¥Ë¥¿¤¹¤ë¤À¤±¤Ê¤éÂ礭¤ÊÌäÂê¤Ï¤Ê¤¤¤¬¡¢¥Ç¥Ð¥¤¥¹¤ËÌ¿Îá½ÐÎϤòȼ¤¦±ó³ÖÀ©¸æ¤ò¼Â¸½¤¹¤ë°Ù¤Ë¤Ï¡¢¥Í¥Ã¥È¥ï¡¼¥¯¥»¥­¥å¥ê¥Æ¥£¤Î³ÎÊÝ¡¢Å¬ÀÚ¤ÏÀܳ¥Ý¥ê¥·¡¼¤ÎÀßÄê¡¢Êü¼ÍÀþȯÀ¸ÁõÃ֤Ǥ¢¤ë²Ã®´ï¤ò³°Éô¤«¤é±ó³ÖÀ©¸æ¤¹¤ë»ö¤Ë¤ª¤±¤ëÎÑÍýŪ¤ÊÌäÂêÅù¤ò²ò·è¤·¤Ê¤¯¤Æ¤Ï¤Ê¤é¤Ê¤¤¡£°Ê¾å¤ò²ò·è¤¹¤ë¼êÃʤȤ·¤Æ¥ª¥Ú¥ì¡¼¥¿²ðºß¥·¥¹¥Æ¥à¤ò¹Í°Æ¡¢³«È¯¤ò¹Ô¤Ã¤¿¡£ËÜ¥·¥¹¥Æ¥à¤ÎÆÃħ¤Ï¡¢EPICS(Experimental Physics and Industrial Control System)¥Ù¡¼¥¹¤Îʬ»¶À©¸æ¥·¥¹¥Æ¥à¤ËÂФ·¤Æ³°Éô¤«¤é±ó³ÖÀ©¸æ¤ò¹Ô¤¦Á°¤Ë¡¢É¬¤ºÀ©¸æ¼¼¤Î¥ª¥Ú¥ì¡¼¥¿¤Ëµö²Ä¤òµá¤á¤ë»ÅÁȤߤòƳÆþ¡¢EPICSÀ©¸æÊÑ¿ô°ì¤Ä°ì¤Ä¤ËÂФ·¤Æ¸·³Ê¤Ê¥¢¥¯¥»¥¹À©¸æµ¡Ç½¤ò»ý¤¿¤»¤¿»ö¤Ç¤¢¤ë¡£²ñµÄ¤Ç¤Ï¥·¥¹¥Æ¥à¤Î¾ÜºÙ¤òÊó¹ð¤¹¤ë¡£
 
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p.1142
KEKÆþ¼Í´ï¤Ë¤ª¤±¤ëWebSocket¤òÍѤ¤¤¿±¿Å¾¾ðÊóɽ¼¨¥Ñ¥Í¥ë¤Î³«È¯
Development of Operation information display panel using WebSocket at KEK Injector Linac.

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¡ûTakuya Kudou, Shiro Kusano (Mitsubishi Electric System & Service CO., LTD.), Masanori Satoh, Kazuro Furukawa (KEK)
 
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p.1145
SuperKEKB¤ÎÅż§ÀÐÀ©¸æ¥·¥¹¥Æ¥à¤Î¥Ç¡¼¥¿´ÉÍý
Data Management for the SuperKEKB Magnet Control System

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¡ûTatsuro Nakamura (KEK), Takuya Nakamura, Kenzi Yoshii (Mitsubishi Electric System & Service CO., LTD.)
 
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p.1149
J-PARC¥ê¥Ë¥¢¥Ã¥¯RF¥Á¥ç¥Ã¥ÑÍѤιâ¼þÇȸ»¥·¥¹¥Æ¥à¤Î²þ¤
Upgrade of Power Supply System for RF-Chopper at J-PARC Linac

¡ûÆó¥ÄÀî ·òÂÀ¡¤ÃÓ¾å ²íµª¡¤Êý »Ö¹â¡¤Ê¡°æ ͤ¼£¡¤´ÝÅÄ Êþ»Ë¡¤µÜÈø ÃҾϡ¤Î­ ͦ¡Ê¹â¥¨¥Í¥ë¥®¡¼²Ã®´ï¸¦µæµ¡¹½¡Ë¡¤°ËÆ£ ͺ°ì¡¤µÆß· ¿®¹¨¡¤º´Æ£ ʸÌÀ¡¤¼Äºê ¿®°ì¡¤ÀéÂå ±Ù»Ê¡¤Ê¿Ìî ¹Ì°ìϺ¡¤ËÙ Íøɧ¡¤»°±º ¾¼É§¡ÊÆüËܸ¶»ÒÎϸ¦µæ³«È¯µ¡¹½¡Ë¡¤ÎëÌÚ Î´ÍΡʻ°É©Åŵ¡¥·¥¹¥Æ¥à¥µ¡¼¥Ó¥¹³ô¼°²ñ¼Ò¡Ë
¡ûKenta Futatsukawa, Masanori Ikegami, Zhigao Fang, Yuji Fukui, Tomofumi Maruta, Tomoaki Miyao, Yong Liu (KEK), Yuichi Ito, Nobuhiro Kikuzawa, Fumiaki Sato, Shinichi Shinozaki, Etsuji Chishiro, Koichiro Hirano, Toshihiko Hori, Akihiko Miura (JAEA), Takahiro Suzuki (Mitsubishi Electric System & Service Co. ,Ltd)
 
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SUP093
p.1154
SuperKEKBÍÑLLRFÀ©¸æ¥·¥¹¥Æ¥à¤Î³«È¯
Development of LLRF system for SuperKEKB

¡ûÃæÀ¾ ¸ùÂÀ¡¤ÀÖ°æ Ï·û¡¤³¤Ï·¸¶ À¶°ì¡¤¾®ÅÄÀÚ ½ß°ì¡¤²ÄÉô ÇÀ»Ö¡¤¾®ÎÓ Å´Ì顤À¾ÏÆ ¤ß¤Á¤ë¡Ê¹â¥¨¥Í¸¦¡Ë¡¤½Ð¸ý µ×¾ë¡¤À¾Èø ½ß°ì¡¤ÎÓ Ï¹§¡¤½Õ¾¾ Ϲ§¡¤¿åÌî È»°ì¡¤µù»Õ ²í¼¡¡Ê»°É©Åŵ¡Æõ¡¡Ë
¡ûKota Nakanishi, Kazunori Akai, Kiyokazu Ebihara, Jun-ichi Odagiri, Atsushi Kabe, Tetsuya Kobayashi, Michiru Nishiwaki (KEK), Hisakuni Deguchi, Jun-ichi Nishio, Kazutaka Hayashi, Kazutaka Harumatsu, Jun-ichi Mizuno, Masatsugu Ryoushi (MELOS)
 
SuperKEKB²Ã®´ï¤ËÍѤ¤¤ëLLRFÀ©¸æ¥·¥¹¥Æ¥à¤Î³«È¯¾õ¶·¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£ Á°²ó¤Ï¥Ç¥¸¥¿¥ëLLRFÀ©¸æ¥·¥¹¥Æ¥à°ì¼°¤ò»îºî¤·¡¢100WÄøÅÙ¤ÎRF¤òARES¶õƶ¤Ë¶¡µë¤·¤Æ¶õƶ¤ÎÅÅ°µ¤È°ÌÁê¤ò°ÂÄê¤ËÀ©¸æ½ÐÍ褿¤³¤È¤òÊó¹ð¤·¤¿¡£ ¤½¤Î¸å¡¢¥¯¥é¥¤¥¹¥È¥í¥ó¤ò´Þ¤á¤¿¼Âµ¡¤ÈƱÍͤΥ·¥¹¥Æ¥à¤Ç100kW¤ÎϢ³±¿Å¾¤ò¼Â»Ü¤·¡¢ÌäÂê¤Ê¤¯±¿Å¾¤Ç¤­¤ë¤³¤È¤ò³Îǧ¤·¤¿¡£°ìÊý¤Ç¡¢ÂçÅÅÎϤò¾ÃÈñ¤¹¤ë¥¯¥é¥¤¥¹¥È¥í¥ó¤Î¸úΨ¤ò¾å¤²¤ëɬÍפ«¤éRF½ÐÎϤΥì¥Ù¥ë¤Ë¹ç¤ï¤»¤ÆÊÑÄ´ÍÑÍ۶ˡʥ¢¥Î¡¼¥É¡Ë¤Î°õ²ÃÅÅ°µ¤òưŪ¤ËÀ©¸æ¤·¤¿¾ì¹ç¤Ë¤Ï¥¯¥é¥¤¥¹¥È¥í¥ó¤Î½ÐÎÏ°ÌÁ꤬Â礭¤¯ÊѲ½¤·¡¢°ÂÄê¤ËÀ©¸æ½ÐÍè¤ëÅÅÎÏÈϰϤ¬À©¸Â¤µ¤ì¤ë²ÄǽÀ­¤¬¤¢¤ë¤³¤È¤âʬ¤«¤Ã¤¿¤¿¤á¡¢¥¯¥é¥¤¥¹¥È¥í¥ó¤Î°ÌÁêÊѲ½¤òưŪ¤ËÊäÀµ¤¹¤ë»ÅÁȤߤòÄɲä·¤¿¡£ ¥Ó¡¼¥à¥¢¥Ü¡¼¥È¤ä¶õƶ¤Ç¤ÎÊüÅŤκݤËÁÛÄꤵ¤ì¤ë¶õƶÅÅ°µ¤ä°ÌÁ꤬µÞ·ã¤ÊÊѲ½¤ò¸¡½Ð¤·¤ÆRF¤òÄä»ß¤¹¤ë¤¿¤á¤Î¥¤¥ó¥¿¡¼¥í¥Ã¥¯¥·¥¹¥Æ¥à¤Ë¤Ä¤¤¤Æ¤â¥Ç¥¸¥¿¥ë½èÍý¤ÇÂбþ¤·¡¢Á°¸å¤ÎÆþ½ÐÎÏ¿®¹æ¤òµ­Ï¿¤Ç¤­¤ë»ÅÁȤߤòÍÑ°Õ¤·¤¿¡£¤³¤ì¤Ë¤è¤ê¥¤¥ó¥¿¡¼¥í¥Ã¥¯È¯À¸¸¶°ø¤ÎƱÄ꤬¤è¤ê³Î¼Â¤Ë¤Ê¤ë¤â¤Î¤È´üÂÔ¤µ¤ì¤ë¡£ ¥¢¥Ê¥í¥°²óÏ©Éôʬ¤Ç¤Ï¡¢¥Ð¥ó¥É¥Ñ¥¹¥Õ¥£¥ë¥¿¡¼¤Î²¹ÅÙÆÃÀ­¤ò¸«Ä¾¤¹¤³¤È¤ÇÄ̾ï¤Î¶õÄ´´Ä¶­¤Ç¤â¶õƶ¤ÎÅÅ°µ¤È°ÌÁ꤬°ÂÄê¤ËÀ©¸æ¤Ç¤­¤ë¤è¤¦¤ËÀ­Ç½¤¬²þÁ±¤µ¤ì¤¿¡£ ¼Âµ¡±¿ÍÑ»þ¤Ë¤Ï¿¿ô¤ÎLLRFÀ©¸æ¥·¥¹¥Æ¥à¤¬Æ±»þ¤Ë±¿ÍѤµ¤ì¡¢¥½¥Õ¥È¥¦¥§¥¢¡¢¥Ï¡¼¥É¥¦¥§¥¢¤Î¹¹¿·¤ä¸ò´¹¤¬É¬Íפˤʤ뤳¤È¤«¤é¡¢Êݼé¤Î¤¿¤á¤Î»ÅÁȤߤˤĤ¤¤Æ¤â¹Íθ¤·¤¿¡£
 
13:00 - 15:00 
SUP094
p.1159
SuperKEKB¹â¼þÇÈ´ð½à¿®¹æʬÇÛ¥·¥¹¥Æ¥à
RF Reference Distribution System for SuperKEKB

¡û¾®ÎÓ Å´Ì顤ÀÖ°æ Ï·û¡¤´äºê ¾»»Ò¡¤³¤Ï·¸¶ À¶°ì¡¤¾®ÅÄÀÚ ½ß°ì¡¤²ÄÉô ÇÀ»Ö¡¤ËöÉð À»ÌÀ¡¤ÃæÀ¾ ¸ùÂÀ¡¤À¾ÏÆ ¤ß¤Á¤ë¡Ê¹â¥¨¥Í¸¦¡Ë¡¤´ä¾ë ¹§»Ö¡¤½Ð¸ý µ×¾ë¡¤ÎÓ Ï¹§¡¤µù»Õ ²í¼¡¡Ê»°É©Åŵ¡Æõ¡¥·¥¹¥Æ¥à¡Ë
¡ûTetsuya Kobayashi, Kazunori Akai, Masako Iwasaki, Kiyokazu Ebihara, Jun-ichi Odagiri, Atsushi Kabe, Masaaki Suetake, Kota Nakanishi, Michiru Nishiwaki (KEK), Takashi Iwaki, Hisakuni Deguchi, Kazutaka Hayashi, Masatsugu Ryoshi (MELOS)
 
¡¡SuperKEKB·×²è¤Ç¤ÏKEKB²Ã®´ï¤Î40ÇܤΥë¥ß¥Î¥·¥Æ¥£¤òÌܻؤ·¡¢¹¹¤Ê¤ëÂçÅÅή¥Ó¡¼¥à¤ÎÃßÀѤäÄ㥨¥ß¥Ã¥¿¥ó¥¹²½¤ò¿Þ¤ë¡£½¾¤Ã¤Æ¡¢¹â¼þÇÈ¿®¹æ¡Ê²Ã®Åų¦¡Ë¤Î¹â¤¤ÀºÅÙ¤ä°ÂÄêÀ­¤¬¤è¤ê½ÅÍפȤʤ롣¤½¤³¤Ç¹â¼þÇȤδð½à¿®¹æʬÇÛ¥·¥¹¥Æ¥à¤Ë¤Ä¤¤¤Æ¤âSuperKEKB¤Î¤¿¤á¤Î¿·µ¬¥·¥¹¥Æ¥à¤òƳÆþ¤¹¤ë¡£ ¡¡½¾Íè¤ÎKEKB¤Ç¤ÏƱ¼´¥±¡¼¥Ö¥ë¤Ç¥«¥¹¥±¡¼¥ÉÀܳ¤Ë¤·¤Æ¥ê¥ó¥°°ì¼þ¡Ê³Æ²Ã®¥»¥¯¥·¥ç¥ó¡Ë¤ËÅÁÁ÷¤·¡¢ÅÁÁ÷¶è´ÖËè¤Ç°ÌÁê¥í¥Ã¥¯¥ë¡¼¥×¡ÊPLL¡Ë¤òÁȤó¤Ç¤¤¤¿¡£¤½¤ì¤ËÂФ·¡¢SuperKEKB¤Ç¤Ï°ÌÁê°ÂÄê²½¸÷¥Õ¥¡¥¤¥Ð¡¼¥±¡¼¥Ö¥ë¤òÍѤ¤¤¿¸÷ÅÁÁ÷¤Ë¤è¤ê¡¢Ãæ±û¥³¥ó¥È¥í¡¼¥ëÅ狼¤é¥¹¥¿¡¼ÇÛÀþ¤Ë¤·¤Æ³Æ²Ã®¥»¥¯¥·¥ç¥ó¤ËʬÇÛ¤¹¤ë¡£¤Þ¤¿¹¹¤Ë³ÆÅÁÁ÷·ÐÏ©¤ÎPLLÀ©¸æ¤òÃæ±û¤Ç°ì³ç¤·¤Æ¹Ô¤¦¡£ ¡¡´ð½à¿®¹æ¤ÎÅÁÁ÷Àè¤È¤·¤Æ¤Ï¡¢²Ã®¥»¥¯¥·¥ç¥ó£³¥ö½ê¡Ê£øÅŻҡ¦ÍÛÅŻҤΣ²¥ê¥ó¥°¡Ë¤ª¤è¤Ó¾×ÆÍÅÀ¤Î·×7¥ö½ê¤Ë²Ã¤¨¡¢Ä㥨¥ß¥Ã¥¿¥ó¥¹²½¤Î¤¿¤áÆþ¼Í´ï¤ËÁýÀߤµ¤ì¤ë¥À¥ó¥Ô¥ó¥°¥ê¥ó¥°¤Î¹ç·×8¥ö½ê¤È¤Ê¤ë¡£¤³¤Î8¥ö½ê¤ØÄ㥸¥Ã¥¿¡¼¤Ç¸÷ʬÇÛ¤¹¤ë¤È¤È¤â¤Ë¡¢¤½¤ì¤¾¤ì¤Î¸÷¥Õ¥¡¥¤¥Ð¡¼·ÐÏ©¡ÊºÇÂçÌó2km¡Ë¤Î°ÌÁêÊÑÆ°¤òÍÞ¤¨¤ëPLLÀ©¸æ¤òƱ»þ¤Ë¹Ô¤¦É¬Íפ¬¤¢¤ë¡£¤½¤³¤Ç¿·¤¿¤Ë¡¢¥Ç¥¸¥¿¥ë¹â®IQ¥µ¥ó¥×¥ê¥ó¥°Êý¼°¤ò±þÍѤ·Â¿Ê¬´ô·ÐÏ©¤Î¸÷ÃÙ±äÀ©¸æ¡Ê°ÌÁê°ÂÄê²½¡Ë¥·¥¹¥Æ¥à¤ò¹Í°Æ¤·¤¿¡£ ¡¡ËÜȯɽ¤Ç¤Ï¡¢SuperKEKBÍѤ˥ǥ¶¥¤¥ó¤µ¤ì¤¿¹â¼þÇÈ´ð½à¿®¹æʬÇÛ¥·¥¹¥Æ¥à¤ò¾Ò²ð¤·¡¢¥Ç¥¸¥¿¥ë¸÷ÃÙ±äÀ©¸æ¥·¥¹¥Æ¥à¤Îɾ²Á·ë²Ì¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£
 
13:00 - 15:00 
SUP095

Present Status and Improvement Plan of J-PARC Linac RF Control Systems
¡ûZhigao Fang, Kenta Futatsukawa, Yuji Fukui, Tetsuya Kobayashi, Shinichiro Michizono (KEK), Fumiaki Sato, Etsuji Chishiro, Shinichi Shinozaki, Toshihiko Hori (JAEA)
 
The RF control systems have been developed for the J-PARC proton Linac, which consists of 324-MHz low-beta and 972-MHz high-beta sections. From the commissioning of the J-PARC 324-MHz 181-MeV proton Linac in October 2006 to the last operation cycle in May 2013, the 181MeV proton Linac had been operated nearly for 7 years. During the past 7 years, almost no heavy troubles occured in the RF control systems. Of course, almost every year we made improvements on the RF control systems, according to the operation experiences. In this paper, the present status of the J-PARC Linac RF control systems will be described in details, and an improvement plan for the LLRF systems in the soon future will also be introduced.
 
13:00 - 15:00 
SUP096
p.1164
BPM¡¦LLRF¥·¥¹¥Æ¥à¤Ç¤Î¦ÌTCA¥Ü¡¼¥É´Ö¹â®¥Ç¡¼¥¿ÄÌ¿®
MicroTCA inter-board data communications applied to BPM and LLRF systems

¡ûÎÓ Ï¹§¡Ê»°É©Åŵ¡Æõ¡¥·¥¹¥Æ¥à¡Ë¡¤ÀÖ°æ Ï·û¡¤ÀÐ°æ ¿Î¡¤ÂÓ̾ ¿ò¡¤ÊÒ¶Í ¹­ÌÀ¡¤¾®ÎÓ Å´Ì顤Èô»³ ¿¿Íý¡¤ÃæÀ¾ ¸ùÂÀ¡¤Ê¡´Ö ¶Ñ¡¤¸ÅÀî ÏÂϯ¡¤»°±º ¹§»Ò¡¤¿¹ ·ò»ù¡Ê£Ë£Å£Ë¡Ë¡¤´ä¾ë ¹§»Ö¡¤µù»Õ ²í¼¡¡Ê»°É©Åŵ¡Æõ¡¥·¥¹¥Æ¥à¡Ë
¡ûKazutaka Hayashi (Mitsubishi Electric TOKKI System), Kazunori Akai, Hitoshi Ishii, Takashi Obina, Hiroaki Katagiri, Tetsuya Kobayashi, Makoto Tobiyama, Kota Nakanishi, Hitoshi Fukuma, Kazuro Furukawa, Takako Miura, Kenji Mori (KEK), Takashi Iwaki, Masatsugu Ryoushi (Mitsubishi Electric TOKKI System)
 
¦ÌTCAµ¬³Ê¤ò¥×¥é¥Ã¥È¥Õ¥©¡¼¥à¤È¤¹¤ëÆȼ«¤ÎFPGAÀ©¸æ¥Ü¡¼¥É¤ò¡¢LLRF¥·¥¹¥Æ¥à¡Ê²Ã®¶õƶ¤Î¿¶Éý¡¦°ÌÁêÀ©¸æ¡¢¥Á¥å¡¼¥Ê¡¼À©¸æ¡Ë¤äBPM¥·¥¹¥Æ¥à¡Ê¥Ó¡¼¥à°ÌÃÖ·×»»¡Ë¤ËŬÍѤ·¤Æ¤¤¤ë¡£FPGAÀ©¸æ¥Ü¡¼¥É¤Ë¤Ï4ch ADC/2ch DAC¤ÈDIO¤òÅëºÜ¤·¡¢£±Âæ¤Î¥Ü¡¼¥ÉÆâ¤Ç¥ê¥¢¥ë¥¿¥¤¥à¤ËÀ©¸æ¡¦·×»»¤Îµ¡Ç½¤ò¼Â¸½¤·¤Æ¤¤¤ë¡£¥Ü¡¼¥É¤ËÅëºÜ¤·¤¿EPICS IOC¤Ë¤è¤ê¡¢Channel AccessÄÌ¿®¤òÍѤ¤¤Æ¥Ü¡¼¥É´Ö¤ä¥·¥¹¥Æ¥à¤ÈÏ¢·È¤·¤¿À©¸æ¤ò¹Ô¤Ã¤Æ¤¤¤ë¡£ À©¸æ¥Ü¡¼¥É´Ö¤Ë¹â®¥Ç¡¼¥¿ÄÌ¿®¤òÄɲä·¡¢¥ê¥¢¥ë¥¿¥¤¥à¤ÊÏ¢·È¤ò¿Þ¤ë¤³¤È¤Ç¡¢µ¡Ç½³ÈÄ¥À­¤¬Â礭¤¯¸þ¾å¤¹¤ë¡£ËÜÊó¹ð¤Ç¤Ï¡¢¥ê¥À¥ó¥À¥ó¥È¹½À®¤Î¦ÌTCAµ¬³Ê¥·¥§¥ë¥Õ¤Î¥Ð¥Ã¥¯¥Ü¡¼¥ÉÇÛÀþÏ©¡¢µÚ¤Ó¡¢¿·¤¿¤Ë³«È¯¤·¤¿±é»»½èÍý¥Ü¡¼¥É¤Ë¤è¤ê¼Â¸½¤µ¤»¤¿¥ê¥¢¥ë¥¿¥¤¥àÏ¢·È¤È¡¢BPM¡¦LLRF¥·¥¹¥Æ¥à¤Ø¤ÎŬÍÑÎã¤ò½Ò¤Ù¤ë¡£ µ°Æ»¥Õ¥£¡¼¥É¥Ð¥Ã¥¯ÍÑBPMÁõÃ֤Ǥϡ¢SuperKEKB¤Î¾×ÆÍÅÀ¶á˵¤ÎBPM£´Âæ¡ÊFPGAÀ©¸æ¥Ü¡¼¥É£´Âæ¡Ë¤ÇÆÀ¤é¤ì¤¿°ÌÃÖ¾ðÊó¤ò¹â®¥Ç¡¼¥¿ÅÁÁ÷¤Ç¡¢±é»»½èÍý¥Ü¡¼¥É¤Ë¼ý½¸¤·¤Æ¡¢¹âÅ٤ʥӡ¼¥à°ÌÃÖÊäÀµ±é»»¤ò¹Ô¤¦»ÅÁȤߤËŬÍѤ·¤¿¡£ SuperKEKB¤ÎÍÛÅŻҥÀ¥ó¥Ô¥ó¥°¥ê¥ó¥°¤Ç¤Ï¡¢ºÇÂ磳Âæ¤Î²Ã®¶õƶ¤ò£±Âæ¤Î¥¯¥é¥¤¥¹¥È¥í¥ó¤ÈLLRF¤ÇÀ©¸æ¤¹¤ë¡£Â¿¿®¹æÆþÎϤÈÆþ¼Í´ï¥¤¥Ù¥ó¥ÈËè¤Î²Ã®°ÌÁêÀ©¸æ¤òÁÛÄꤷ¡¢Á°½Ò¤Î±é»»½èÍý¥Ü¡¼¥É¤ò¥Ù¡¼¥¹¤Ë¥¤¥Ù¥ó¥È¥ì¥·¡¼¥Ð¡¼¤Ë»ÅΩ¤Æ¡¢³ÆFPGAÀ©¸æ¥Ü¡¼¥É¤È¹â®¥Ç¡¼¥¿ÄÌ¿®¤òŬÍѤ·¤¿¡£
 
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SUP097
p.1168
SuperKEKBÍÑ¥Ó¡¼¥à¥À¥¯¥È¤ÎÃâ²½¥Á¥¿¥ó¥³¡¼¥Æ¥£¥ó¥°µÚ¤Ó¥Ù¡¼¥­¥ó¥°
TiN coating and pre-baking of beam ducts for SuperKEKB

¡û¼ÆÅÄ ¶³¡¤Çò°æ Ëþ¡¤µ×¾¾ ¹­Èþ¡¤Ëö¼¡ Í´²ð¡¤¶âß· ·ò°ì¡¤Àж¶ ÂóÌ¾È°æ ¿¿»Ê¡Ê¹â¥¨¥Í¸¦¡Ë
¡ûKyo Shibata, Mitsuru Shirai, Hiromi Hisamatsu, Yusuke Suetsugu, Ken-ichi Kanazawa, Takuya Ishibashi, Shinji Terui (KEK)
 
¸½ºß·úÀߤ¬¿Ê¤á¤é¤ì¤Æ¤¤¤ëSuperKEKB²Ã®´ï¤Ë¤ª¤¤¤Æ¤Ï¡¢¼þĹÌó3 km¤ÎÍÛÅŻҥê¥ó¥°¤Î¤Û¤ÜÁ´¤Æ¤ÈÅŻҥê¥ó¥°¤Î°ìÉô¤Î¥Ó¡¼¥à¥À¥¯¥È¤¬¿·¤·¤¤¤â¤Î¤Ë¸ò´¹¤µ¤ì¤ë¡£¿·¤¿¤ËÀ½Â¤¤µ¤ì¤ë¥Ó¡¼¥à¥À¥¯¥È¤Ï¥¢¥ë¥ß¹ç¶â¤Þ¤¿¤ÏƼÀ½¤Ç¤¢¤ê¡¢ËÜ¿ô¤ÏÌó1200ËÜ¡¢Ä¹¤µ¤Ï¤Û¤È¤ó¤É¤¬2¡Á5 m¤Ç¤¢¤ë¡£SuperKEKB¤Ç¤Ï¡¢¥Ó¡¼¥à¥À¥¯¥ÈÆâÉô¤ò-7¾èÂæPa¤ÎĶ¹â¿¿¶õ¤Ë¤¹¤ë¤³¤È¤¬µá¤á¤é¤ì¤Æ¤ª¤ê¡¢¥À¥¯¥È¤Ë¤Ï²Ã®´ï¤ËÀßÃÖ¤µ¤ì¤ëÁ°¤Ë¥Ù¡¼¥­¥ó¥°¤Ë¤è¤ë楬¥¹½èÍý¤¬»Ü¤µ¤ì¤ë¡£¥Ù¡¼¥­¥ó¥°²¹ÅÙ¤Ï150¡î¡¢»þ´Ö¤ÏÌó24»þ´Ö¤Ç¤¢¤ê¡¢ÌÜɸÅþã°µÎϤÏ1E-7 Pa̤Ëþ¤Ç¤¢¤ë¡£¹¹¤ËÍÛÅŻҥê¥ó¥°¤Ë¤ª¤¤¤Æ¤Ï¡¢ÅŻұÀÉÔ°ÂÄêÀ­¤Ë¤è¤ë¥Ó¡¼¥à¤ÎÎô²½¤òËɤ°¤¿¤á¤Ë¡¢¥À¥¯¥ÈÆâÌ̤ËÃâ²½¥Á¥¿¥ó(TiN)¥³¡¼¥Æ¥£¥ó¥°¤ò»Ü¤·¡¢¥À¥¯¥ÈÆâÌ̤Î2¼¡ÅÅ»ÒÊü½ÐΨ¤òÄ㸺¤µ¤»¤ëɬÍפ¬¤¢¤ë¡£¥³¡¼¥Æ¥£¥ó¥°¤Ï¡¢¥À¥¯¥ÈÃæ¿´¼´¾å¤Ë¥Á¥¿¥ó±¢¶Ë¤òÀßÃÖ¤·¡¢¥¢¥ë¥´¥óµÚ¤ÓÃâÁÇÊ·°Ïµ¤Ãæ¤Ç¥Þ¥°¥Í¥È¥í¥óÊüÅŤòµ¯¤³¤¹¤³¤È¤Ç¹Ô¤ï¤ì¤ë¡ÊDC¥Þ¥°¥Í¥È¥í¥ó¥¹¥Ñ¥Ã¥¿¥ê¥ó¥°¡Ë¡£ÍÛÅŻҥê¥ó¥°ÍÑ¥Ó¡¼¥à¥À¥¯¥È¤Ë¤Ï¡¢¸ü¤µ200 nm¤ÎTiN¥³¡¼¥Æ¥£¥ó¥°¤¬»Ü¤µ¤ì¡¢¤½¤Î¸å¤Ë¥Ù¡¼¥­¥ó¥°¤¬¹Ô¤ï¤ì¤ë¡£2ǯ´Ö¤ÇÌó1200ËܤΥӡ¼¥à¥À¥¯¥È¤ò½èÍý¤¹¤ë¤¿¤á¤Ë¡¢KEK¤Ä¤¯¤Ð¥­¥ã¥ó¥Ñ¥¹Æâ¤Ë¡¢4Âæ¤Î¥Ù¡¼¥­¥ó¥°ÁõÃÖ¤È7Âæ¤Î¥³¡¼¥Æ¥£¥ó¥°ÁõÃÖ¤¬ÀßÃÖ¤µ¤ì¡¢2012ǯ4·î¤«¤é±¿Å¾¤¬³«»Ï¤µ¤ì¤¿¡£ËܳÊŪ¤Êºî¶È¤Ï2012ǯ9·î¤«¤é¹Ô¤ï¤ì¤Æ¤ª¤ê¡¢2013ǯ5·îËö¤Þ¤Ç¤Ë659ËܤΥӡ¼¥à¥À¥¯¥È¤Î½èÍý¤¬´°Î»¤·¤Æ¤¤¤ë¡£²ñ¾ì¤Ç¤Ï¡¢³ÆÁõÃÖ¤äºî¶ÈÆâÍƤˤĤ¤¤Æ¾Ü¤·¤¯Êó¹ð¤¹¤ë¡£
 
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SUP098
p.1173
¶â¥á¥Ã¥­¤µ¤ì¤¿¥¿¥ó¥¿¥ëÀ½¥Ó¡¼¥à¥Ñ¥¤¥×¥µ¥ó¥×¥ë¤Ë¤ª¤±¤ë¸÷»Ò¤ÎÀèü»¶Íð
Tip-scattering measurement for sample of gold plated tantalum beam pipe

¡ûÀж¶ ÂóÌ¶âß· ·ò°ì¡Ê¹â¥¨¥Í¸¦¡¦²Ã®´ï¡Ë¡¤ÅÄÃæ ½¨¼£¡Ê¹â¥¨¥Í¸¦¡¦Ádz˸¦¡Ë
¡ûTakuya Ishibashi, Ken-ichi Kanazawa (KEK Accelerator Laboratory), Shuji Tanaka (KEK Institute of Particle and Nuclear Studies)
 
SuperKEKB¤Î¾×ÆÍÅÀÉÕ¶á¤Ç¤Ï¡¢ÁÇγ»Ò¸¡½Ð´ï¤Ç¤¢¤ëBelle II¤¬¥Ó¡¼¥à¥Ñ¥¤¥×¥Ó¡¼¥à¤ò°Ï¤à¤è¤¦¤Ë¿ø¤¨ÉÕ¤±¤é¤ì¡¢¤½¤ÎÃæ¿´Éô¤ÇÅŻҡ¦ÍÛÅŻҥӡ¼¥à¤¬¸ß¤¤¤Ë¾×Æͤò·«¤êÊÖ¤¹¡£¾×ÆÍÅÀ¤Î¥Ó¡¼¥à¥Ñ¥¤¥×¤Ïʪ¼ÁÎ̤ò¶ËÎÏÍÞ¤¨¤ëɬÍפ¬¤¢¤ê¡¢SuperKEKB¤Ç¤Ïµ¡³£Åª¶¯ÅÙ¤âÍ­¤·¤Æ¤¤¤ë¥Ù¥ê¥ê¥¦¥à¤¬»ÈÍѤµ¤ì¤ë¡£¾×ÆÍÅÀ¤Î¥Ó¡¼¥à¥Ñ¥¤¥×¤Ë¤ÏºÇ½ªÊиþÅż§ÀФª¤è¤ÓºÇ½ª¼ý«Åż§ÀÐÆâ¤ÇȯÀ¸¤·¤¿¥·¥ó¥¯¥í¥È¥í¥óÊü¼Í¸÷¤¬¿¯Æþ¤¹¤ë¡£¤³¤ÎÊü¼Í¸÷¤ÏºÇÆâÁؤˤ¢¤ëPXDÅù¤Î¥Ð¥Ã¥¯¥°¥é¥¦¥ó¥É¤È¤Ê¤ë¡£¥Ð¥Ã¥¯¥°¥é¥¦¥ó¥É¤òÄ㸺¤¹¤ë¤¿¤á¡¢¤³¤Î¥Ó¡¼¥à¥Ñ¥¤¥×¤Ë¤Ï¸ü¤µ20¡¡¦Ìm¤Î¶â¥á¥Ã¥­¤¬»Ü¤µ¤ì¤ë¡£¤³¤ì¤Ë¤è¤ê10 keV°Ê²¼¤Î¸÷»Ò¤Ï¤Û¤ÜÁ˻ߤǤ­¤ë¡£¤Þ¤¿¾åή¤«¤é¤Î¥·¥ó¥¯¥í¥È¥í¥óÊü¼Í¸÷¤¬Ä¾ÀÜ¥Ù¥ê¥ê¥¦¥àÉô¤ËÅö¤¿¤é¤Ê¤¤¤è¤¦¤Ë¡¢¥Ó¡¼¥à¥Ñ¥¤¥×¤Î¾×ÆÍÅÀ¤Ø¤ÎÆþ¤ê¸ý¤Ïľ·Â10 mm¤Ë¹Ê¤é¤ì¤Æ¤¤¤ë¡£¤µ¤é¤Ë¾×ÆÍÅÀÉÕ¶á¤Ç¤Ïʪ¼ÁÎ̤ÎÂ礭¤¤¥¿¥ó¥¿¥ëÀ½¥Ó¡¼¥à¥Ñ¥¤¥×¤¬»ÈÍѤµ¤ì¡¢¤³¤ÎÆâÊÉÌ̤˥ê¥Ã¥¸¹½Â¤¤ò¤Ä¤±¤ë¤³¤È¤Ë¤è¤ê»¶Íð¸÷¤ÎÈϰϤòÀ©¸Â¤·¡¢»¶Íð¸÷¤¬¾×ÆÍÅÀ¤Î¥Ù¥ê¥ê¥¦¥à¥Ñ¥¤¥×¤ØÅþ㤹¤ë¤³¤È¤òÁ˻ߤ·¤Æ¤¤¤ë¡£¤³¤Î¥¿¥ó¥¿¥ë¥Ó¡¼¥à¥Ñ¥¤¥×¤Î¥ê¥Ã¥¸ÀèüÉô¤Ë¤ª¤±¤ëÊü¼Í¸÷¤ÎÍðÈ¿¼Í¤Î±Æ¶Á¤òɾ²Á¤¹¤ë¤¿¤á¡¢¥³¡¼¥Í¥ëÂç³ØCHESS(Cornell High Energy Synchrotron Source)¡¢G2¥Ó¡¼¥à¥é¥¤¥ó¤Ë¤ª¤±¤ë9 keV¤ÎÊü¼Í¸÷¤òÍøÍѤ·¤Æ¥ê¥Ã¥¸Àèü¤Ë¤ª¤±¤ë¸÷»Ò»¶Íð¤Î¬Äê¤ò¹Ô¤Ã¤¿¤Î¤Ç¡¢ËÜǯ²ñ¤Ç¤Ï¤½¤Î·ë²Ì¤Ë¤Ä¤¤¤ÆÊó¹ð¤¹¤ë¡£
 
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SUP099
p.1176
J-PARC MR¤Ë¤ª¤±¤ë¥¨¥­¥µ¥¤¥¿¡¼ÅŶˤÎɽÌ̽èÍý¤Ë¤è¤ë¥Þ¥ë¥Á¥Ñ¥¯¥¿¥ê¥ó¥°¤ÎÍÞÀ©¤Ë¤Ä¤¤¤Æ
Control of the multipactoring by the surface coating of the exciter electrodes in J-PARC MR

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¡ûMasashi Okada, Takeshi Toyama (KEK J-PARC Acc.), Alexander Schnase (GSI)
 
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SUP100
p.1180
SuperKEKB¥¤¥¯¥¹¥È¥é¥¯¥·¥ç¥ó¥¦¥£¥ó¥É¥¦¤ÎÇ®¾×·â²òÀÏ
ESTIMATION OF TEHRMAL SHOCKS OF EXTRACTION WINDOW FOR SuperKEKB

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¡ûShinji Terui, Mitsuo Kikuchi, Toshihiro Mimashi (KEK)
 
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SUP101
p.1183
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Development of Outgassing Measurement Apparatus made of Titanium material

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¡ûGennki Okuyama, Hiroki Kurisu, Setsuo Yamamoto (Yamaguchi Univ.)
 
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SUP102
p.1186
SuperKEKB¿¿¶õ¥·¥¹¥Æ¥à¤Î·úÀß-II
Construction of the SuperKEKB Vacuum System - II

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¡ûYusuke Suetsugu, Ken-ichi Kanazawa, Kyo Shibata, Takuya Ishibashi, Hiromi Hisamatsu, Mitsuru Shirai, Shinji Terui (KEK)
 
KEK¤Ç¤Ï¼¡´üÅÅ»Ò-ÍÛÅŻҾ×ÆͲî´ï¡ÖSuperKEKB¡×¤Î·úÀߤ¬2010ǯ¤è¤ê»Ï¤Þ¤Ã¤Æ¤¤¤ë¡£¿¿¶õ¥·¥¹¥Æ¥à¤Ç¤Ï¡¢¼ç¤ËÍÛÅŻҥê¥ó¥°¤Î¥Ó¡¼¥à¥Ñ¥¤¥×¤ª¤è¤Ó´ØÏ¢¤¹¤ë³Æ¼ï¿¿¶õ¥³¥ó¥Ý¡¼¥Í¥ó¥È¤Î¿·µ¬À½ºî¡¢À©¸æ¥·¥¹¥Æ¥à¤Î¥¢¥Ã¥×¥°¥ì¡¼¥ÉÅù¤¬¿Ê¤á¤é¤ì¤Æ¤¤¤ë¡£2011ǯÅÙ¡¢¥¢¡¼¥¯Éôʬ¤ª¤è¤Ó¥¦¥£¥°¥é¡¼Éôʬ¤ÎÌó2000 m¤Ë¤Ä¤¤¤Æ¥Ó¡¼¥à¥Ñ¥¤¥×¡¢¥Ù¥í¡¼¥º¥Á¥§¥ó¥Ð¡¼¡¢¥²¡¼¥È¥Ð¥ë¥ÖÅù¤òÀ½ºî¤·¤¿¡£¿·µ¬¥Ó¡¼¥à¥Ñ¥¤¥×Åù¤Ï¡¢¤¤¤ï¤æ¤ë¥¢¥ó¥Æ¥Á¥§¥ó¥Ð¡¼·¿¤ÎÃÇÌ̤ò»ý¤Á¡¢Äã¥Ó¡¼¥à¥¤¥ó¥Ô¡¼¥À¥ó¥¹²½¡¢ÅŻұÀÉÔ°ÂÄêÀ­Âкö¤Î¶¯²½¤ò¿Þ¤Ã¤Æ¤¤¤ë¡£2012ǯÅÙ¤«¤é¡¢¥Ó¡¼¥à¥Ñ¥¤¥×¤ÎÆó¼¡ÅÅ»ÒÊü½ÐΨ¤òÄã²¼¤µ¤»¤ë¤¿¤á¤ÎTiN¥³¡¼¥Æ¥£¥ó¥°ºî¶È¡¢¤ª¤è¤Ó¥È¥ó¥Í¥ëÀßÃÖÁ°¤Ë¹Ô¤¦¥Ù¡¼¥­¥ó¥°ºî¶È¤ò³«»Ï¤·¡¢2012ǯÅÙ¸åȾ¤«¤é¼ç¥ê¥ó¥°¥È¥ó¥Í¥ë¤Ø¤Î¥Ó¡¼¥à¥Ñ¥¤¥×ÀßÃÖºî¶È¡¢À©¸æ¥·¥¹¥Æ¥à¤Î»î¸³Åù¤ò³«»Ï¤·¤Æ¤¤¤ë¡£¤Þ¤¿¡¢¥Ó¡¼¥àÆþ¼ÍÉô¡¢¥¢¥Ü¡¼¥ÈÉôÅù¤Î¥Ó¡¼¥à¥Ñ¥¤¥×¤ä¥Ó¡¼¥à¥³¥ê¥á¡¼¥¿Åù¤ÎÆü쥳¥ó¥Ý¡¼¥Í¥ó¥È¤Î³«È¯¡¦À߷ס¦À½ºî¤ò¿Ê¤á¤Æ¤¤¤ë¡£¤³¤³¤Ç¤Ï¡¢¼ç¥ê¥ó¥°¤Î¿¿¶õ¥³¥ó¥Ý¡¼¥Í¥ó¥È¤ÎÀ߷ס¦À½ºî¾õ¶·¡¢¼ç¥È¥ó¥Í¥ë¤Ø¤ÎÀßÃÖ¾õ¶·Åù¤Ë¤Ä¤¤¤Æȯɽ¤¹¤ë¡£
 
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SUP103
p.1191
SuperKEKBÍÛÅŻҥê¥ó¥°ÍÑ¥³¥ê¥á¡¼¥¿¤ÎÀß·×
Design of collimator for SuperKEKB positron ring

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¡ûTakuya Ishibashi, Yusuke Suetsugu, Shinji Terui (KEK Accelerator Laboratory)
 
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SUP104
p.1196
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R & D of a vacuum chamber integrated multipole magnet

¡û²¬°Â ͺ°ì¡¤¿¼¸« ·ò»Ê¡ÊJASRI¡Ë
¡ûYuichi Okayasu, Kenji Fukami (JASRI)
 
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SUP105
p.1201
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Research and development on surface flashover voltage of ceramics.

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¡ûShuji Mihara, Takeshi Maeda (KYOCERA Corporation), Masakazu Yoshioka, Hiroshi Matsumoto, Toshikazu Kurihara (KEK), Toshiyuki Ohba (NAT)
 
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SUP106
p.1205
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Design of superconducting magnets for a rotating-gantry and magnetic field measurements

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Influence of X-ray topograph for image acquisition using parametric X-ray radiation

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TEST OF DIAMOND SINGLE CRYSTALS IN THE PARAMETRIC X-RAY SOURCE BASED ON A DOUBLE-CRYSTAL SYSTEM

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Energy-saving cooling facilities of X-rays free-electron laser facilities "SACLA"

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