Electron heat transport in shaped TCV L-mode plasmas

被引:31
|
作者
Camenen, Y [1 ]
Pochelon, A
Bottino, A
Coda, S
Ryter, F
Sauter, O
Behn, R
Goodman, TP
Henderson, MA
Karpushov, A
Porte, L
Zhuang, G
机构
[1] Ecole Polytech Fed Lausanne, Assoc Euratom Confederat Suisse, Ctr Rech Phys Plasmas, CH-1015 Lausanne, Switzerland
[2] EURATOM, Max Planck Inst Plasmaphys, IPP, Garching, Germany
来源
PLASMA PHYSICS AND CONTROLLED FUSION | 2005年 / 47卷 / 11期
关键词
D O I
10.1088/0741-3335/47/11/007
中图分类号
O35 [流体力学]; O53 [等离子体物理学];
学科分类号
070204 ; 080103 ; 080704 ;
摘要
Electron heat transport experiments are performed in L-mode discharges at various plasma triangularities, using radially localized electron cyclotron heating to vary independently both the electron temperature T-e and the normalized electron temperature gradient R/L-Te over a large range. Local gyrofluid (GLF23) and global collisionless gyro-kinetic (LORB5) linear simulations show that, in the present experiments, trapped electron mode (TEM) is the most unstable mode. Experimentally, the electron heat diffusivity chi(e) is shown to decrease with increasing collisionality, and no dependence of chi(e) on R/L-Te is observed at high R/L-Te values. These two observations are consistent with the predictions of TEM simulations, which supports the fact that TEM plays a crucial role in electron heat transport. In addition, over the broad range of positive and negative triangularities investigated, the electron heat diffusivity is observed to decrease with decreasing plasma triangularity, leading to a strong increase of plasma confinement at negative triangularity.
引用
收藏
页码:1971 / 1987
页数:17
相关论文
共 50 条
  • [21] SOLPS-ITER validation with TCV L-mode discharges
    Wensing, M.
    Reimerdes, H.
    Fevrier, O.
    Colandrea, C.
    Martinelli, L.
    Verhaegh, K.
    Bagnato, F.
    Blanchard, P.
    Vincent, B.
    Perek, A.
    Gorno, S.
    de Oliveira, H.
    Theiler, C.
    Duval, B. P.
    Tsui, C. K.
    Baquero-Ruiz, M.
    Wischmeier, M.
    PHYSICS OF PLASMAS, 2021, 28 (08)
  • [22] Radial variation of heat transport in L-mode JET discharges
    van Milligen, B. Ph
    Carreras, A.
    de la Luna, E.
    Solano, E. R.
    Abduallev, S.
    Abhangi, M.
    Abreu, P.
    Afzal, M.
    Aggarwal, K. M.
    Ahlgren, T.
    Ahn, J. H.
    Aho-Mantila, L.
    Aiba, N.
    Airila, M.
    Albanese, R.
    Aldred, V.
    Alegre, D.
    Alessi, E.
    Aleynikov, P.
    Alfier, A.
    Alkseev, A.
    Allinson, M.
    Alper, B.
    Alves, E.
    Ambrosino, G.
    Ambrosino, R.
    Amicucci, L.
    Amosov, V.
    Sunden, E. Andersson
    Angelone, M.
    Anghel, M.
    Angioni, C.
    Appel, L.
    Appelbee, C.
    Arena, P.
    Ariola, M.
    Arnichand, H.
    Arshad, S.
    Ash, A.
    Ashikawa, N.
    Aslanyan, V.
    Asunta, O.
    Auriemma, F.
    Austin, Y.
    Avotina, L.
    Axton, M. D.
    Ayres, C.
    Bacharis, M.
    Baciero, A.
    Baiao, D.
    NUCLEAR FUSION, 2019, 59 (05)
  • [23] ELECTRON-TEMPERATURE PROFILE INVARIANCE IN OH-MODE, L-MODE AND H-MODE PLASMAS AND CONSEQUENCES FOR THE ANOMALOUS TRANSPORT
    BECKER, G
    NUCLEAR FUSION, 1992, 32 (01) : 81 - 88
  • [24] ANOMALOUS ION-TRANSPORT OF L-MODE PLASMAS IN JT-60
    HIRAYAMA, T
    SHIRAI, H
    YAGI, M
    SHIMIZU, K
    KOIDE, Y
    KIKUCHI, M
    AZUMI, M
    NUCLEAR FUSION, 1992, 32 (01) : 89 - 106
  • [25] Investigation of the transport shortfall in Alcator C-Mod L-mode plasmas
    Howard, N. T.
    White, A. E.
    Greenwald, M.
    Reinke, M. L.
    Walk, J.
    Holland, C.
    Candy, J.
    Goerler, T.
    PHYSICS OF PLASMAS, 2013, 20 (03)
  • [26] Avalanche electron heat transport events triggered by non-linear mode couplings in HL-2A neutral beam injection heated L-mode plasmas
    Chen, W.
    Shi, Z. B.
    Qiu, Z. Y.
    Yu, L. M.
    Shi, P. W.
    Jiang, M.
    Ji, X. Q.
    Li, Y. G.
    He, X. X.
    Fang, K. R.
    Zou, Y. P.
    Ma, R. R.
    Zhu, X. L.
    Zhong, W. L.
    Ding, X. T.
    Yang, Q. W.
    Wang, Z. X.
    Li, J. Q.
    Xu, M.
    Duan, X. R.
    NUCLEAR FUSION, 2020, 60 (09)
  • [27] Explaining the isotope effect on heat transport in L-mode with the collisional electron-ion energy exchange
    Schneider, P. A.
    Bustos, A.
    Hennequin, P.
    Ryter, F.
    Bernert, M.
    Cavedon, M.
    Dunne, M. G.
    Fischer, R.
    Goerler, T.
    Happel, T.
    Igochine, V.
    Kurzan, B.
    Lebschy, A.
    McDermott, R. M.
    Morel, P.
    Willensdorfer, M.
    NUCLEAR FUSION, 2017, 57 (06)
  • [28] Experimental scaling of divertor heat and particle flux widths in EAST L-mode plasmas
    Liu, J. B.
    Guo, H. Y.
    Wang, L.
    Xu, G. S.
    Wang, H. Q.
    Liu, S. C.
    Feng, W.
    Xu, J. C.
    Deng, G. Z.
    Yang, Q. Q.
    Ling, B. L.
    FUSION ENGINEERING AND DESIGN, 2015, 100 : 301 - 306
  • [29] Study of fast-ion-driven toroidal Alfvén eigenmodes impacting on the global confinement in TCV L-mode plasmas
    Mazzi, S.
    Vallar, M.
    Kumar, U.
    Krutkin, O.
    Poley-Sanjuan, J.
    Simons, L.
    Ball, J.
    Brunner, S.
    Coda, S.
    Garcia, J.
    Iantchenko, A.
    Kazakov, Ye. O.
    Lin, W. H.
    Ongena, J.
    Rofman, B.
    Villard, L.
    TCV team
    FRONTIERS IN PHYSICS, 2023, 11
  • [30] Ion heat transport in electron cyclotron resonance heated L-mode plasma on the T-10 tokamak
    Krupin, V. A.
    Nurgaliev, M. R.
    Nemets, A. R.
    Zemtsov, I. A.
    Suntsov, S. D.
    Myalton, T. B.
    Sergeev, D. S.
    Solovev, N. A.
    Sarychev, D. V.
    Ryjakov, D. V.
    Tugarinov, S. N.
    Naumenko, N. N.
    PLASMA SCIENCE & TECHNOLOGY, 2024, 26 (04)
12345