Resistive skin time
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The resistive skin time is a characteristic time of typical magnetohydrodynamic (MHD) phenomena, describing the diffusion time associated with a resistive wall mode (RWM).[1] Due to this, it is also sometimes referred to as the wall skin time or resistive wall skin time.
Definition
[edit]The resistive skin time is defined as: where is the resistivity, is a typical radius of the RWM and is the magnetic permeability.[2][note 1] This formula is distinct from, but analogous to the generalized diffusion time formula , where D is the diffusion coefficient.[3][4] The interpretation of this means that the quantity (which has units of ) serves as the diffusion coefficient when describing RWMs.
Uses
[edit]While the resistive skin time is often referenced in journals concerning RWMs,[2][5][6] it is almost never a primary focus of the study, but rather a time scale used to reference other occurrences in the RWM. Most commonly, it is used to describe events whose timescales are short enough that the overall evolution of the RWM has little impact on individual events. It may also be compared to the Alfvén time, to describe a specific wave interation with the RWM.[7]
Notes
[edit]- ^ The formula given by the cited source includes 4*pi in place of the magnetic permeability. It is unclear why the source removes the involved factor of 10^-7, but the above formula is correct for unit cancellation.
References
[edit]- ^ Chu, M. S.; Greene, J. M.; Jensen, T. H.; Miller, R. L.; Bondeson, A.; Johnson, R. W.; Mauel, M. E. (1995-06-01). "Effect of toroidal plasma flow and flow shear on global magnetohydrodynamic MHD modes". Physics of Plasmas. 2 (6): 2236–2241. doi:10.1063/1.871247. ISSN 1070-664X.
- ^ a b Rutherford, P. H. (1973-11-01). "Nonlinear growth of the tearing mode". The Physics of Fluids. 16 (11): 1903–1908. doi:10.1063/1.1694232. ISSN 0031-9171.
- ^ Korenaga, Takashi (2008), "Environmental Monitoring", Comprehensive Microsystems, Elsevier, pp. 391–420, ISBN 978-0-444-52190-3, retrieved 2024-10-30
- ^ Mueller, Jonathan B.; Fischer, Joachim; Wegener, Martin (2020), "Reaction mechanisms and in situ process diagnostics", Three-Dimensional Microfabrication Using Two-Photon Polymerization, Elsevier, pp. 175–196, ISBN 978-0-12-817827-0, retrieved 2024-10-30
- ^ DeLucia, J.; Jardin, S.C. (1984-02-01). Nonlinear evolution of the resistive interchange mode in the cylindrical spheromak (Report). Office of Scientific and Technical Information (OSTI).
- ^ Okabayashi, M; Bialek, J; Chance, M S; Chu, M S; Fredrickson, E D; Garofalo, A M; Hatcher, R; Jensen, T H; Johnson, L C; Haye, R J La; Navratil, G A; Reimerdes, H; Scoville, J T; Strait, E J; Turnbull, A D (2002-11-20). "Stabilization of the resistive wall mode in DIII–D by plasma rotation and magnetic feedback". Plasma Physics and Controlled Fusion. 44 (12B): B339–B355. doi:10.1088/0741-3335/44/12b/324. ISSN 0741-3335.
- ^ Chen, X. L.; Morrison, P. J. (1990-03-01). "Resistive tearing instability with equilibrium shear flow". Physics of Fluids B: Plasma Physics. 2 (3): 495–507. doi:10.1063/1.859339. ISSN 0899-8221.