¹âÀ¥¸¦µæ¼¼

¹âÀ¥¸¦µæ¼¼¤Ç¤Ï³ËÍ»¹ç¤òÌܻؤ·¤¿¹â²¹¥×¥é¥º¥Þ¼Â¸³¸¦µæ¤ò ¹Ô¤Ê¤Ã¤Æ¤¤¤ë¡£ ¸½ºß¤Ï±ó»³¸¦µæ¼¼¤È¶¦Æ±¤Ç¡¢TST-Mµå¾õ ¥È¥«¥Þ¥¯ÁõÃÖ¤ò»È¤Ã¤¿¼Â¸³¤ò¹Ô¤Ê¤Ã¤Æ¤¤¤ë¤¬¡¢ 1997ǯÅ٤Ϥ³¤Î¤Û¤« MIT Plasma Science and Fusion Center¤Î¥³¥ó¥Ñ¥¯¥È·¿ ¹â¼§¾ì¥È¥«¥Þ¥¯ÁõÃÖAlcator C-Mod¤Ë¤ª¤±¤ë¡¢¹â¼þÇȤò »È¤Ã¤¿¹âÅÅÎÏÌ©ÅÙ²ÃÇ®¼Â¸³¤ª¤è¤Ó¥×¥é¥º¥ÞÀ­Ç½²þÁ±¼Â¸³ ¤ò¹Ô¤Ê¤Ã¤¿¡£

1 Alcator C-Mod¤Ë¤ª¤±¤ë¼Â¸³

1.1 ¹âÅÅÎÏÌ©ÅÙ²ÃÇ®¼Â¸³

¥¤¥ª¥ó¥µ¥¤¥¯¥í¥È¥í¥ó¼þÇÈ¿ôÂÓ¡ÊICRF¡Ë¤Î¹â¼þÇÈÅÅÎϤò»È¤Ã¤Æ¡¢¥×¥é¥º¥ÞÃæ¤Ë ÇȤòÎ嵯¤·¡¢ÇÈÆ°¥¨¥Í¥ë¥®¡¼¤ò¥×¥é¥º¥Þγ»Ò¤ËµÛ¼ý¤µ¤»¤ë¤³¤È¤Ë¤è¤ê ¥×¥é¥º¥Þ¤ò²ÃÇ®¤¹¤ë¤³¤È¤¬¤Ç¤­¤ë¡£Alcator C-Mod¤Ç¤Ï¶¯¤¤¼§¾ì¡Ê5-8 T¡Ë ¤òÍøÍѤ·¤Æ¡¢¶Ë¤á¤ÆÅÅÎÏÌ©Å٤ι⤤²ÃÇ®¼Â¸³¤¬²Äǽ¤Ç¤¢¤ë¡£ ¤³¤Î¼þÇÈ¿ôÂӤǤκǤâ°ìÈÌŪ¤Ê²ÃǮˡ¤Ï¾¯¿ô¥¤¥ª¥ó²ÃÇ®¤Ç¤¢¤ë¡£ ½Å¿åÁÇ¡ÊD¡Ë¥×¥é¥º¥Þ¤Ë·Ú¿åÁÇ¡ÊH¡Ë¤Î¾¯¿ô¥¤¥ª¥ó¤òº®¤¼¤¿¾ì¹ç¡¢Ëؤó¤É´°Á´¤Ë ¶á¤¤ÇÈÆ°¥¨¥Í¥ë¥®¡¼¤ÎµÛ¼ý¤¬µ¯¤³¤ë¤Î¤ËÂФ·¡¢¥Ø¥ê¥¦¥à£³¡Ê³He¡Ë¤Î¾¯¿ô¥¤¥ª¥ó ¤ò»È¤Ã¤¿¾ì¹ç¤Ë¤ÏµÛ¼ý¤ÎÎô²½¤¬´Ñ¬¤µ¤ì¤¿¡£¥×¥é¥º¥Þ¤Î¼þÊÕÉô¤ËÍ¢Á÷¾ãÊÉ ¤¬¤Ç¤­¤ëH-mode¤Ç¤Ï¿Þ1 ¤Ë¼¨¤¹¤è¤¦¤Ë¡¢ ²ÃÇ®Îΰè¤òÃæ¿´Éô¤è¤ê¥×¥é¥º¥Þ¾®È¾·Â¤ÎȾʬÄøÅÙ ¤º¤é¤»¤Æ¤â¥×¥é¥º¥Þ²ÃÇ®¤ÏÎɹ¥¤Ëµ¯¤³¤ë¤³¤È¤¬³Îǧ¤µ¤ì¤¿¡£¤³¤ì¤Ï ¾­Íè¤Î¼Â¸³¤Ç¡¢Ãæ¿´¤è¤ê¤º¤ì¤¿°ÌÃ֤DzÃÇ®µÚ¤ÓÅÅή¶îÆ°¤ò¹Ô¤Ê¤¦ ¤Î¤Ëͭ˾¤Ê·ë²Ì¤Ç¤¢¤ë¡£

¿Þ1 H-mode¾õÂ֤ǤÎH¾¯¿ô¥¤¥ª¥ó²ÃÇ®¤Î¶¦ÌÄ°ÌÃְ͸À­¡£ ¾¯¿ô¥¤¥ª¥ó¤ÎµÛ¼ýÎΰè¡Ê¥µ¥¤¥¯¥í¥È¥í¥ó¶¦Ìľò·ï¤òËþ¤¿¤¹°ÌÃÖ¡Ë ¤ò¼§¾ì¶¯ÅÙ¤òÊѤ¨¤ë¤³¤È¤Ë¤è¤êÊѲ½¤µ¤»¤¿¡£¥×¥é¥º¥Þ²ÃÇ® ¡ÊÃßÀÑ¥¨¥Í¥ë¥®¡¼WMHD¤ÎOH¤«¤éH-mode¤Ø¤ÎÁý²Ãʬ¡Ë ¤Ï²ÃÇ®Îΰè¤ò¾®È¾·Â¤ÎȾʬÄøÅÙr/a @ 0.5 ¡Êµø»õ¾õ¿¶Æ°¤ÎȿžȾ·Â¤è¤ê³°Â¦¡ËÃæ¿´¤è¤ê¤º¤é¤»¤Æ¤âÎô²½¤»¤º¡¢ ¸úΨŪ¤Ê²ÃÇ®¤¬µ¯¤³¤Ã¤Æ¤¤¤ë¤³¤È¤¬¤ï¤«¤ë¡£

Ä̾ï¥×¥é¥º¥ÞÃæ¤ËÎ嵯¤µ¤ì¤ëÇȤÏ®Çȡʼ§µ¤²»ÇȡˤȸƤФì¤ë¤¬¡¢ ¤¢¤ë¾ò·ï¤òËþ¤¿¤¹¤È¥¤¥ª¥ó¥Ð¡¼¥ó¥·¥å¥¿¥¤¥óÇȤ˥⡼¥ÉÊÑ´¹¤¬µ¯¤³¤ê¡¢ ¤³¤ÎÇȤÏÅŻҤ˶¯¤¯µÛ¼ý¤µ¤ì¤ë¡£¤³¤Î²áÄø¤òÍøÍѤ·¤Æ¡¢¶É½êŪ¤Ê ÅŻҲÃÇ®µÚ¤ÓÅÅή¶îÆ°¤¬²Äǽ¤Ç¤¢¤ë¡£Alcator C-Mod¤Î¼Â¸³¤Ç¤Ï¡¢ ¿Þ2¤Ë¼¨¤¹¤è¤¦¤Ë¶Ë¤á¤Æ¶É½êŪ¤ÊÅŻҲÃÇ®¤¬µ¯¤³¤ê¡¢ ²ÃÇ®Îΰè¤ò¶õ´ÖŪ¤ËÀ©¸æ¤Ç¤­¤ë ¤³¤È¤¬¼Â¾Ú¤µ¤ì¤¿¡£

¿Þ2 (a) H¤È3He¤Îº®¹ç¥×¥é¥º¥Þ¤Ë¤ª¤±¤ë ¥¤¥ª¥ó¥Ð¡¼¥ó¥·¥å¥¿¥¤¥óÇÈ ¤Ë¤è¤ëÃæ¿´ÅŻҲÃÇ®¡¢B = 6.5 T, I = 0.8 MA, ne0 = 1.8 ×1020 m-3, nHe / ne @ 0.23, nD / ne = 0.05, (b) D¤È3H¤Îº®¹ç¥×¥é¥º¥Þ¤Ë ¤ª¤±¤ër/a @ 0.5¤Ç¤ÎÅŻҲÃÇ®¡¢B = 7.9 T, I = 1.2 MA, ne0 = 2.5 ×1020 m-3, n3He / ne @ 0.30. ¼Â¸³Åª¤ËÆÀ¤é¤ì¤¿¹â¼þÇȤˤè¤ëľÀÜÅŻҲÃǮ̩ÅÙ¡Ê´Ý°õ¡Ë¤Ï¡¢¼ÂÀþ¤Ç¼¨¤·¤¿ ·×»»·ë²Ì¡ÊTORIC¥³¡¼¥É¤Ë¤è¤ë¡Ë¤È¤è¤¯°ìÃפ¹¤ë¡£»Í³Ñ°õ¤Ï¼Â¸³¥Ç¡¼¥¿¤È ľÀÜÈæ³Ó¤Ç¤­¤ë¤è¤¦¤Ë¡¢·×»»·ë²Ì¤ËÅŻҲ¹ÅÙ¬Äê´ï¤ÎÁõÃÖÉý¤Î±Æ¶Á¤ò ²Ã¤¨¤¿¤â¤Î¤Ç¤¢¤ë¡£

1.2 ¥×¥é¥º¥ÞÀ­Ç½²þÁ±¼Â¸³

¾åµ­¤Î¶¯ÎϤʲÃǮˡ¤òÍѤ¤¤Æ¡¢¥×¥é¥º¥Þ¤ÎÀ­Ç½²þÁ±¼Â¸³¤ò³Æ¼ï¹Ô¤Ê¤Ã¤¿¡£ ¥×¥é¥º¥Þ¤Î²ÃÇ®ÅÅÎϤ¬¤¢¤ëïçÃͤò±Û¤¨¤ë¤È¡¢¥×¥é¥º¥Þ¤Î¥¨¥Í¥ë¥®¡¼ÊĤ¸¹þ¤á »þ´Ö¤¬ÆÍÁ³Ìó£²ÇܤËÁýÂ礹¤ë¸½¾Ý¤¬ÃΤé¤ì¤Æ¤¤¤ë¡£¤³¤ì¤òÄ̾ï¤ÎL-mode¤Ë ÂÐÈ椷¤ÆH-mode¤È¸Æ¤Ó¡¢¥×¥é¥º¥Þ¶­³¦Éô¤ËÍ¢Á÷¾ãÊɤ¬¤Ç¤­¤ë¤³¤È¤¬ÃΤé¤ì ¤Æ¤¤¤ë¡£Ëܼ¸³¤Ç¤Ï¡¢¤³¤ÎÁ«°Ü¤Ë¤Ï¥×¥é¥º¥Þ¶­³¦¤Ç¤Î²¹Å١ʤ⤷¤¯¤Ï ¥×¥é¥º¥Þ°µÎϡˤ¬ËܼÁŪ¤ÊÌò³ä¤ò²Ì¤¿¤·¤Æ¤¤¤ë¤³¤È¤¬ÌÀ¤é¤«¤Ë¤µ¤ì¤¿¡£ ¿Þ3¤Ë¼¨¤¹¤è¤¦¤Ë¥×¥é¥º¥Þ¼þÊÕÉô¤Ç¤Î²¹ÅÙT_e95¤¬ïçÃͤòĶ¤¨¤ë¤È L-mode¤«¤éH-mode¤Ø¤ÎÁ«°Ü¤¬µ¯¤³¤ë¡£ ¤Þ¤¿¡¢H-mode¤ËÁ«°Ü¤¹¤ë¤È¥×¥é¥º¥Þ¤¬¥È¥í¥¤¥À¥ëÊý¸þ¤Ë²Ã®¤µ¤ì¤ë¤³¤È¤¬ ¤ï¤«¤Ã¤¿¡£¹âÅÅÎÏÌ©ÅÙÎΰè¤Ë¤ª¤¤¤Æ¡¢Enhanced D_a H-mode¤È ¸Æ¤Ð¤ì¤ë¿·¤·¤¤¼ïÎà¤ÎH-mode¤¬È¯¸«¤µ¤ì¤¿¡£¿Þ4¤Ë Enhanced D_a H-mode¤ÈELM-free H-mode¤ÎÂÐÈæ¤òɽ¤¹¡£ Enhanced D_a H-mode¤Ç¤Ï ÉÔ½ãʪ¤Îº®ÆþÅÙ¤òɽ¤¹Êü¼Í»¼º¡¢¥¤¥ª¥ó¤Î¼Â¸úÅŲ٤Ȥâ¤Ë P_rad/P_in = 0.3, Z_eff = 1.5¤ÈÄ㤤ÃͤËÍî¤ÁÃ夭¡¢ ¥×¥é¥º¥Þ¤Î¥¨¥Í¥ë¥®¡¼ÊĤ¸¹þ¤á¤òɽ¤¹ÎÌ¡¢¼§¾ì¤ÎÍ­¸úÍøÍѤòɽ¤¹ÎÌ ¤È¤â¤ËH_ITER89-P = 2, b_N = baB/I = 1.5¤È ¹â¤¤ÃͤòÊݤĤ³¤È¤¬²Äǽ¤È¤Ê¤ë¡£¤³¤ì¤Ï¥¨¥Í¥ë¥®¡¼ÊĤ¸¹þ¤á¤òµÁÀ­¤Ë ¤¹¤ë¤³¤È¤Ê¤¯Î³»ÒÊĤ¸¹þ¤á¤òû½Ì¤Ç¤­¤¿¤³¤È¤Ëµ¯°ø¤¹¤ë¡£ Ä̾ï¤ÎH-mode¤Ç¤Ï¥×¥é¥º¥Þ¼þÊդ˶ɺߤ¹¤ëEdge Localized Mode (ELM) ¤Ë¤è¤ê¼þ´üŪ¤ËÉÔ½ãʪ¤ò½üµî¤·¤Æ½àÄê¾ï¾õÂÖ¤òÊݤĤ¬¡¢ELM¤Ë¤è¤ê ¥À¥¤¥Ð¡¼¥¿¡¼¤ÎÇ®Éé²Ù¤¬µÞ·ã¤Ë¹â¤¯¤Ê¤ëÌäÂêÅÀ¤¬¤¢¤ë¡£ Enhanced D_a H-mode¤Ç¤ÏELM¤Ê¤·¤Î Äê¾ï±¿Å¾¤¬²Äǽ¤È¤Ê¤ë¤¿¤á´üÂԤλý¤Æ¤ë±¿Å¾¥â¡¼¥É¤Ç¤¢¤ë¡£

¿Þ3 H-mode¤ÎïçÃÍ¡£¾å¤Î¿Þ¤¬½¾Íè¤Î¥¹¥±¡¼¥ê¥ó¥°¤Ç¡¢L-mode¡Ê»Í³Ñ¡Ë¤È H-mode¡Ê»°³Ñ¡Ë¤Î¥Ç¡¼¥¿¤¬¤Ï¤Ã¤­¤êʬ¤«¤ì¤Ê¤¤¤¬¡¢¥×¥é¥º¥Þ¼þÊÕÉô¤Î ÅŻҲ¹ÅÙTe95¤ò¤È¤ë¤ÈL-mode¤ÈH-mode¤Î¶­³¦¤¬¤Ï¤Ã¤­¤ê¸½¤ì¤ë ¡Ê¤³¤Î¾ì¹çTe95 = 0.12 keV¡Ë¡£

¿Þ4 Enhanced Da H-mode¤ÎÎã¡ÊÎÐÀþ¡Ë¡¢B = 5.3 T, I = 1.0 MA.L-mode¤ËÂФ¹¤ë¥¨¥Í¥ë¥®¡¼ÊĤ¸¹þ¤á²þÁ±ÅÙ HITER89-P = 2, µ¬³Ê²½¤·¤¿¥Ù¡¼¥¿ÃÍ bN = baB/I = 1.5¤¬¡¢Prad/Pin = 0.3, Zeff = 1.5¤ÈƱ»þ¤ËãÀ®¤µ¤ì¤¿¡£Èæ³Ó¤Î¤¿¤á¡¢ELM-free H-mode ¤Î¾ì¹ç¤¬ÀÖÀþ¤Ç¼¨¤·¤Æ¤¢¤ë¡£

¥×¥é¥º¥ÞÃæ¿´Éô¤Ë¸ÇÂΤΥڥì¥Ã¥È¤òÍѤ¤¤Æγ»Ò¤ò ¶¡µë¤·¡¢Ì©ÅÙʬÉÛ¤òÊѤ¨¤¿¸å¤ËÃæ¿´Éô¤ò¶¯ÎϤ˲ÃÇ®¤¹¤ë¤È¡¢¥×¥é¥º¥ÞÃæ¿´Éô ÉÕ¶á¤ËÍ¢Á÷¾ãÊɤ¬¤Ç¤­¡¢¿Þ5¤Ë¼¨¤¹¤è¤¦¤ËÃæ¿´Éô¤ÇÈó¾ï¤Ë¸ûÇۤζ¯¤¤ °µÎÏʬÉۤȤʤ뤳¤È¤¬³Îǧ¤µ¤ì¤¿¡£¤³¤ì¤ò PEP (Pellet Enhanced Performance) mode¤È¸Æ¤Ö¡£ ¤³¤Î¾ì¹ç¥×¥é¥º¥ÞÃæ¿´Éô¤Î°µÎϤÏÃø¤·¤¯¹â¤¯¤Ê¤ë¤Î¤Ç¡¢ ³ËÍ»¹çÈ¿±þ½ÐÎϤÎÂ礭¤ÊÁý²Ã¤¬´Ñ¬¤µ¤ì¤ë¡Ê³ËÍ»¹ç½ÐÎÏ Ì©Å٤ϥץ饺¥Þ°µÎϤΤۤܣ²¾è¤ËÈæÎ㤹¤ë¡Ë¡£

¿Þ5 PEP mode¤Î°µÎÏʬÉÛ¡£Ãæ¿´Éôr/a £ 0.3¤ÇÍ¢Á÷¾ãÊɤ¬¤Ç¤­¡¢ ¶Ë¤á¤ÆµÞ½Ô¤Ê°µÎϸûÇÛ¤¬¤Ç¤­¤ë¡£¤·¤«¤â¹â®¥¤¥ª¥ó¤Î°µÎϤؤΠ´óÍ¿¤Ï¾®¤µ¤¤¡£Èæ³Ó¤Î¤¿¤áL-mode¤Î°µÎÏʬÉÛ¤ò¼¨¤¹ ¡Êptot¤Èpth¤Îº¹¤¬¹â®¥¤¥ª¥ó¤Î´óÍ¿¤Ç¤¢¤ë¡Ë¡£

¤³¤Î¤Û¤«¡¢¾­Íè¤Î¼Â¸³¤Ç ɬÍפȤʤ롢¥×¥é¥º¥ÞÅÅήΩ¤Á¾å¤²»þ¤Î²ÃÇ®¤¬²Äǽ¤Ç¤¢¤ë¤³¤È¤ò¼Â¾Ú¤·¡¢ ¤½¤ÎºÝ¥×¥é¥º¥Þ¤Î¼§µ¤¥·¥¢¤Ï¥×¥é¥º¥ÞÃæ¿´Éô¤ÇÉé¤Ë¤Ê¤Ã¤Æ¤¤¤ë¤³¤È¤¬ ³Îǧ¤µ¤ì¤¿¡£¤³¤Î¤è¤¦¤Ê¼§µ¤¥·¥¢¤ÎʬÉÛ¤ÏÍ¢Á÷¤òÄ㸺¤¹¤ë¤Î¤Ë´óÍ¿¤¹¤ë ¤³¤È¤¬ÃΤé¤ì¤Æ¤¤¤ë¡£

References

¡ãÊóʸ¡ä

(¸¶ÃøÏÀʸ)

[1]

B. Lipschultz, J. A. Goetz, B. LaBombard, G. M. McCracken, H. Ohkawa, Y. Takase, J. Terry, ``Modification and Control of Divertor Detachment in Alcator C-Mod,'' J. Nucl. Mater. 241-243, 771 (1997).

[2]

B. LaBombard, J. A. Goetz, I. Hutchinson, D. Jablonski, J. Kesner, C. Kurz, B. Lipschultz, G. M. McCracken, A. Niemczewski, J. Terry, A. Allen, R. L. Boivin, F. Bombarda, P. Bonoli, C. Christensen, C. Fiore, D. Garnier, S. Golovato, R. Granetz, M. Greenwald, S. Horne, A. Hubbard, J. Irby, D. Lo, D. Lumma, E. Marmar, M. May, A. Mazurenko, R. Nachtrieb, H. Ohkawa, P. O'Shea, M. Porkolab, J. Reardon, J. Rice, C. Rost, J. Schachter, J. Snipes, J. Sorci, P. Stek, Y. Takase, Y. Wang, R. Watterson, J. Weaver, B. Welch, S. Wolfe, ``Experimental Investigation of Transport Phenomena in the Scrape-off Layer and Divertor,'' J. Nucl. Mater. 241-243, 149 (1997).

[3]

Y. Takase, R. L. Boivin, F. Bombarda, P. T. Bonoli, C. Christensen, C. Fiore, D. Garnier, J. A. Goetz, S. N. Golovato, R. Granetz, M. Greenwald, S. F. Horne, A. Hubbard, I. H. Hutchinson, J. Irby, B. LaBombard, B. Lipschultz, E. Marmar, M. May, A. Mazurenko, G. McCracken, P. O'Shea, M. Porkolab, J. Reardon, J. Rice, C. Rost, J. Schachter, J. A. Snipes, P. Stek, J. Terry, R. Watterson, B. Welch, S. Wolfe, ``Radiofrequency-Heated Enhanced Confinement Modes in the Alcator C-Mod Tokamak,'' Phys. Plasmas 4, 1647 (1997).

[4]

P. T. Bonoli, P. O'Shea, S. N. Golovato, A. E. Hubbard, M. Porkolab, Y. Takase, R. L. Boivin, F. Bombarda, M. Brambilla, C. Christensen, C. Fiore, D. Garnier, J. A. Goetz, R. Granetz, M. Greenwald, S. F. Horne, I. H. Hutchinson, J. Irby, B. LaBombard, B. Lipschultz, E. Marmar, M. May, A. Mazurenko, G. McCracken, R. Nachtrieb, A. Niemczewski, H. Ohkawa, D. Pappas, J. Reardon, J. Rice, C. Rost, J. Schachter, J. A. Snipes, P. Stek, J. Terry, Y. Wang, R. Watterson, B. Welch, S. Wolfe, ``Electron heating via mode converted ion Bernstein waves in Alcator C-Mod,'' Phys. Plasmas 4, 1774 (1997).

[5]

J. E. Rice, J. L. Terry, J. A. Goetz, Y. Wang, E. S. Marmar, M. Greenwald, I. Hutchinson, Y. Takase, S. Wolfe, H. Ohkawa, A. Hubbard, ``Impurity transport in Alcator C-Mod plasmas,'' Phys. Plasmas 4, 1605 (1997).

[6]

M. Greenwald, R. L. Boivin, F. Bombarda, P. T. Bonoli, C. L. Fiore, D. Garnier, J. A. Goetz, S. N. Golovato, M. A. Graf, R. S. Granetz, S. Horne, A. Hubbard, I. H. Hutchinson, J. H. Irby, B. LaBombard, B. Lipschultz, E. S. Marmar, M. J. May, G. M. McCracken, P. O'Shea, J. E. Rice, J. Schachter, J. A. Snipes, P. C. Stek, Y. Takase, J. L. Terry, R. Watterson, B. Welch, S. M. Wolfe, ``H Mode Confinement in Alcator C-Mod,'' Nucl. Fusion 37, 793 (1997).

[7]

S. F. Horne, M. Greenwald, T. W. Fredian, I. H. Hutchinson, B. L. Labombard, J. Stillerman, Y. Takase, S. M. Wolfe, T. A. Casper, D. N. Butner, W. H. Meyer, J. M. Moller, ``Remote control of Alcator C-Mod from Lawrence Livermore National Laboratory,'' Fusion Technology 32, 152 (1997).

[8]

J. E. Rice, M. Greenwald, I. H. Hutchinson, E. S. Marmar, Y. Takase, S. M. Wolfe, F. Bombarda, ``Observations of Central Toroidal Rotation in ICRF Heated Alcator C-Mod Plasmas,'' Nucl. Fusion 38, 75 (1998).

(²ñµÄ¾¶Ï¿)

[9]

Y. Takase, P. Bonoli, A. Hubbard, A. Mazurenko, P. O'Shea, M. Porkolab, J. Reardon, S. Wukitch, Alcator C-Mod Group, ``Analysis of ICRF Heating on Alcator C-Mod,'' in Controlled Fusion and Plasma Physics (Proc. 24th European Conference, Berchtesgaden, Germany, 1997) (Eur. Phys. Soc., Geneva, Switzerland, 1997) Vol. 21A, p. 561.

[10]

J.A. Snipes, R. Boivin, C. Fiore, J.A. Goetz, A. Hubbard, I.H. Hutchinson, J. Irby, B. LaBombard, B. Lipschultz, E.S. Marmar, J. Rice, P.C. Stek, Y. Takase, J.L. Terry, S.M. Wolfe, ``Enhanced D_a H-modes in Alcator C-Mod,'' in Controlled Fusion and Plasma Physics (Proc. 24th European Conference, Berchtesgaden, Germany, 1997) (Eur. Phys. Soc., Geneva, Switzerland, 1997) Vol. 21A, p. 565.

[11]

M. Porkolab, R. Boivin, P.T. Bonoli, C. Fiore, M. Greenwald, A. Hubbard, I.H. Hutchinson, Y. In, E. Marmar, P. O'Shea, J. Ramos, J. Rice, J.C. Rost, J.A. Schachter, J. Snipes, Y. Takase, S.M. Wolfe, Alcator C-Mod Group, ``Reversed Shear Experiments in Alcator C-Mod with Current Ramp and ICRF Heating,'' in Controlled Fusion and Plasma Physics (Proc. 24th European Conference, Berchtesgaden, Germany, 1997) (Eur. Phys. Soc., Geneva, Switzerland, 1997) Vol. 21A, p. 569.

[12]

Y. Takase, P. T. Bonoli, S. Golovato, P. O'Shea, M. Porkolab, S. Wukitch, R. Boivin, F. Bombarda, C. Fiore, D. Garnier, J. Goetz, R. Granetz, M. Greenwald, S. Horne, A. Hubbard, I. Hutchinson, J. Irby, B. LaBombard, B. Lipschultz, E. Marmar, M. May, A. Mazurenko, G. McCracken, A. Niemczewski, J. Reardon, J. Rice, C. Rost, J. Snipes, J. Terry, R. Watterson, B. Welch, S. M. Wolfe, ``ICRF Heating Experiments on Alcator C-Mod,'' (invited) in Radio Frequency Power in Plasmas (Proc. 12th Top. Conf., Savannah, GA, 1997) (AIP, New York, 1997) p. 33.

[13]

J. C. Rost, R. L. Boivin, M. Porkolab, J. C. Reardon, Y. Takase, ``Observation of Edge Ion Heating during ICRH in Alcator C-Mod,'' in Radio Frequency Power in Plasmas (Proc. 12th Top. Conf., Savannah, GA, 1997) (AIP, New York, 1997) p. 85.

[14]

P. J. O'Shea, P. Bonoli, A. Hubbard, M. Porkolab, Y. Takase, ``ICRF Power Deposition Studies using ECE Diagnostics on Alcator C-Mod,'' in Radio Frequency Power in Plasmas (Proc. 12th Top. Conf., Savannah, GA, 1997) (AIP, New York, 1997) p. 89.

[15]

C. K. Phillips, P. T. Bonoli, J. C. Hosea, B. LeBlanc, R. P. Majeski, M. Porkolab, J. H. Rogers, G. Schilling, D. N. Smithe, Y. Takase, J. R. Wilson, J.C. Wright, S. Wukitch, ``ICRF Heating and Current Drive Regimes in Alcator C-Mod,'' in Radio Frequency Power in Plasmas (Proc. 12th Top. Conf., Savannah, GA, 1997) (AIP, New York, 1997) p. 265.

[16]

P. T. Bonoli, P. J. O'Shea, M. Brambilla, A. Hubbard, M. Porkolab, Y. Takase, S. Wukitch, ``Theoretical Analysis of Mode Conversion Electron Heating Experiments in Alcator C-Mod,'' in Radio Frequency Power in Plasmas (Proc. 12th Top. Conf., Savannah, GA, 1997) (AIP, New York, 1997) p. 269.

¡ã³Ø½Ñ¹Ö±é¡ä

(¹ñºÝ²ñµÄ)

°ìÈֱ̹é

[17]

Y. Takase, ``Off-Axis ICRF Heating in Alcator C-Mod,'' 39th Annual Meting of the Division of Plasma Physics, American Physical Society, Pittsburgh, PA, USA, November 1997.

[18]

Y. Takase, ``High Power Density ICRF Heating and Enhanced D_a H-Mode in Alcator C-Mod,'' Tripartite Large Tokamak Workshop on Optimization of Heating and Current Drive for Improved Performance, JAERI, Naka, Japan, February 1998.

[19]

Y. Takase, ``Present Status and Future Plans of Alcator C-Mod,'' DOE/JAERI Technical Planning of Tokamak Experiments, JAERI, Naka, Japan, February 1998.

[20]

Y. Takase, ``RF-Driven Advanced Tokamak Scenario Modeling Based on Initial Experimental Results from Alcator C-Mod,'' 5th ITER Expert Group Workshop on Energetic Particle and Heating and Current Drive, JAERI, Naka, Japan, February 1998.

[21]

Y. Takase, ``ST Research Plans at the University of Tokyo,'' Japan-US Workshop on Spherical Tokamaks, University of Wisconsin, Madison, WI, USA, March 1998.

¾·ÂÔ¹Ö±é

[22]

Y. Takase, ``Spherical Tokamak Research in the US and Japan,'' 1997 International Symposium on Plasma Dynamics in Complex Electromagnetic Fields, Kyoto University Institute of Advanced Energy, Uji, Japan, December 1997.

Back to Toyama-Takase Home page

File translated from T_EX by T_TH, version 1.52.