Operational limits during high power long pulses with radiofrequency heating in Tore Supra
暂无分享,去创建一个
R. Mitteau | Sylvain Brémond | David Douai | Frederic Imbeaux | F. Saint-Laurent | F. Kazarian | F. G. Rimini | G. Lombard | G. Giruzzi | L. Millon | Annika Ekedahl | Jérôme Bucalossi | V. Basiuk | Laurent Colas | Marc Goniche | E. Tsitrone | Suk-Ho Hong | E. Delchambre | Yann Corre | L. Manenc | P. Monier-Garbet | J. L. Schwob | F. Imbeaux | G. Giruzzi | V. Basiuk | J. Bucalossi | F. Saint-Laurent | F. Rimini | L. Colas | R. Dumont | B. Pégourié | M. Goniche | P. Moreau | Y. Corre | E. Tsitrone | A. Ekedahl | D. Douai | Suk-Ho Hong | P. Monier-Garbet | R. Mitteau | G. Dunand | G. Lombard | F. Kazarian | S. Bremond | F. Samaille | O. Meyer | R. Dumont | L. Millon | G. Dunand | O. Meyer | B. Pégourié | Ph. Moreau | Franck Samaille | L. Manenc | E. Delchambre | J. Schwob
[1] A. Becoulet,et al. Tore Supra steady-state power and particle injection: the ‘CIMES’ project , 2001 .
[2] P. Hertout,et al. Overview of the deuterium inventory campaign in Tore Supra: Operational conditions and particle balance , 2009 .
[3] T. Loarer,et al. Long pulse operation with actively cooled limiters , 1997 .
[4] Y. Ikeda,et al. Ripple enhanced banana drift loss at the outboard wall during ICRF/NBI heating in JT-60 U , 1996 .
[5] Jet Efda Contributors,et al. Understanding the spatial structure of RF-induced SOL modifications , 2007 .
[6] J. B. Lister,et al. A lower hybrid current drive system for ITER , 2009 .
[7] T. J. Martin,et al. Measurement and interpretation of interaction of MeV energy protons with lower hybrid waves in JET plasmas , 1999 .
[8] M. Goniche,et al. Thermal behavior of the LHCD launchers in Tore Supra , 2007 .
[9] Suk-Ho Hong,et al. Investigation of temporal evolution and spatial distribution of dust creation events in DITS campaign using visible CCD cameras in Tore Supra , 2009 .
[10] M. Shoji,et al. ICRF long-pulse discharge and interaction with a chamber wall and antennas in LHD , 2007 .
[11] A. Becoulet,et al. Recent fully non-inductive operation results in Tore Supra with 6?min, 1?GJ plasma discharges , 2004 .
[12] V. Basiuk,et al. Ripple losses during ICRF heating in Tore Supra , 2004 .
[13] B. Pégourié,et al. Impurity production monitoring during RF experiments in Tore Supra , 2009 .
[14] Evidence for Regions of Nearly Suppressed Velocity Space Diffusion Caused by Finite Larmor Radius Effects during ICRF Heating , 1999 .
[15] V. Basiuk,et al. Modelling of ripple losses in tokamak plasmas heated by ICRF waves , 2001 .
[16] R. Mitteau,et al. Analysis of radiative disruptions in RF-heated Tore Supra plasmas using infrared imaging , 2009 .
[17] V. Basiuk,et al. RF Coupling and Antenna Heat Load Control for Combined LHCD and ICRH in Tore Supra , 2007 .
[18] R. Mitteau,et al. A Possible Method of Carbon Deposit Mapping on Plasma Facing Components Using Infrared Thermography , 2020, ArXiv.
[19] R. Mitteau,et al. RF heating optimization on Tore Supra using feedback control of infrared measurements , 2007 .
[20] E. Joffrin,et al. Thermal and non-thermal particle interaction with the LHCD launchers in Tore Supra , 2007 .
[21] Interaction of lower hybrid waves with fast ions in JET , 1994 .
[22] M. Greenwald. Density limits in toroidal plasmas , 2002 .
[23] J. Roth,et al. Deuterium inventory in Tore Supra: reconciling particle balance and post-mortem analysis , 2009 .
[24] J. Jacquinot,et al. Steady-state operation of tokamaks: key experiments, integrated modelling and technology developments on Tore Supra , 2005 .