Magneto-inertial confinement of turbulent plasma

被引:0
|
作者
Rypdal, K
Paulsen, JV
Fredriksen, H
机构
来源
JOURNAL DE PHYSIQUE IV | 1995年 / 5卷 / C6期
关键词
D O I
10.1051/jp4:1995625
中图分类号
O4 [物理学];
学科分类号
0702 ;
摘要
A one-fluid model describing the axisymmetric plasma confinement in a Simple Magnetized Torus (SMT) is formulated, discussed and studied numerically. This configuration does not exhibit a stationary MHD-equilibrium state, but the present work shows that the Reynolds stress-tenser due to the inertial forces from turbulent velocity fluctuations is sufficient to secure an equilibrium of time-averaged quantities. Numerical solutions demonstrates how a cathode generated plasma develops a spiralling vortex that evolves towards increasingly smaller spatial scales. Hence turbulence develops from a driven, non-equilibrium situation, and not from an instability of an equilibrium.
引用
收藏
页码:137 / 140
页数:4
相关论文
共 50 条
  • [41] Magneto-inertial approach to direct-drive laser fusion
    Gotchev, O. V.
    Jang, N. W.
    Knauer, J. P.
    Barbero, M. D.
    Betti, R.
    Li, C. K.
    Petrasso, R. D.
    JOURNAL OF FUSION ENERGY, 2008, 27 (1-2) : 25 - 31
  • [42] Estimation of the neutron generation in the combined magneto-inertial fusion scheme
    Kuzenov, Victor V.
    Ryzhkov, Sergei V.
    Physica Scripta, 2021, 96 (12):
  • [43] Hotspot ignition using a Z-pinch precursor plasma in a magneto-inertial ICF scheme.
    Chittenden, JP
    Vincent, P
    Jennings, CA
    Ciardi, A
    DENSE Z-PINCHES, 2006, 808 : 335 - +
  • [44] Macron Formed Liner as a Practical Method for Enabling Magneto-Inertial Fusion
    Kirtley, David
    Slough, John
    JOURNAL OF FUSION ENERGY, 2010, 29 (06) : 561 - 566
  • [45] A generalized mathematical model of magneto-inertial horizon-compass deviation
    Arkhipov V.A.
    Russian Aeronautics, 2009, 52 (01): : 83 - 87
  • [46] Analytical validation of innovative magneto-inertial outcomes: a controlled environment study
    Poleur, M.
    Tricot, A.
    Medard, L.
    Gevenois, N.
    Lozeve, D.
    de Noordhout, A. Maertens
    Bouquiaux, O.
    Lommers, E.
    Michaud, M.
    Annoussamy, M.
    Servais, L.
    MULTIPLE SCLEROSIS JOURNAL, 2022, 28 (3_SUPPL) : 193 - 193
  • [47] DETERMINATION OF THE BASIC PARAMETERS OF A CHIP DEGREASING CENTRIFUGE WITH MAGNETO-INERTIAL DISCHARGE
    AFANASEV, AA
    SOVIET ENGINEERING RESEARCH, 1983, 3 (01): : 42 - 44
  • [48] An overview of magneto-inertial fusion on the Z machine at Sandia National Laboratories
    Yager-Elorriaga, D. A.
    Gomez, M. R.
    Ruiz, D. E.
    Slutz, S. A.
    Harvey-Thompson, A. J.
    Jennings, C. A.
    Knapp, P. F.
    Schmit, P. F.
    Weis, M. R.
    Awe, T. J.
    Chandler, G. A.
    Mangan, M.
    Myers, C. E.
    Fein, J. R.
    Galloway, B. R.
    Geissel, M.
    Glinsky, M. E.
    Hansen, S. B.
    Harding, E. C.
    Lamppa, D. C.
    Lewis, W. E.
    Rambo, P. K.
    Robertson, G. K.
    Savage, M. E.
    Shipley, G. A.
    Smith, I. C.
    Schwarz, J.
    Ampleford, D. J.
    Beckwith, K.
    Peterson, K. J.
    Porter, J. L.
    Rochau, G. A.
    Sinars, D. B.
    NUCLEAR FUSION, 2022, 62 (04)
  • [49] Infrastructureless Indoor Navigation With an Hybrid Magneto-inertial and Depth Sensor System
    Caruso, David
    Sanfourche, Martial
    le Besnerais, Guy
    Vissiere, David
    2016 INTERNATIONAL CONFERENCE ON INDOOR POSITIONING AND INDOOR NAVIGATION (IPIN), 2016,
  • [50] A teleoperated control approach for anthropomorphic manipulator using magneto-inertial sensors
    Noccaro, A.
    Cordella, F.
    Zollo, L.
    Di Pino, G.
    Guglielmelli, E.
    Formica, D.
    2017 26TH IEEE INTERNATIONAL SYMPOSIUM ON ROBOT AND HUMAN INTERACTIVE COMMUNICATION (RO-MAN), 2017, : 156 - 161
12345