论文信息 - Derivation of Solar Flare Cellular Automata Models from a Subset of the Magnetohydrodynamic Equations

Derivation of Solar Flare Cellular Automata Models from a Subset of the Magnetohydrodynamic Equations

Cellular automata (CA) models account for the power-law distributions found for solar flare hard X-ray observations, but their physics has been unclear. We examine four of these models and show that their criteria and magnetic field distribution rules can be derived by discretizing the MHD diffusion equation as obtained from a simplified Ohm's law. Identifying the discrete MHD with the CA models leads to an expression for the resistivity as a function of the current on the flux tube boundary, as may be expected from current-driven instabilities. Anisotropic CA models correspond to a nonlinear resistivity η(J), while isotropic ones are associated with hyperresistivity η(2J). The discrete equations satisfy the necessary conditions for self-organized criticality (Lu): there is local conservation of a field (magnetic flux), while the nonlinear resistivity provides a rapid dissipation and relaxation mechanism. The approach justifies many features of the CA models that were originally based on intuition.

[1] Loukas Vlahos,et al. Coronal Heating by Nanoflares and the Variability of the Occurrence Frequency in Solar Flares , 1996 .

[2] S. Kane,et al. Solar hard x-ray microflares , 1984 .

[3] B. Tsurutani,et al. Book-Review - Collisionless Shocks in the Heliosphere - a Tutorial Review , 1985 .

[4] E. Lu,et al. Avalanches and the Distribution of Solar Flares , 1991 .

[5] B. Dennis,et al. Evidence for a Cutoff in the Frequency Distribution of Solar Flares from Small Active Regions , 1997 .

[6] James M. McTiernan,et al. Solar flares and avalanches in driven dissipative systems , 1993 .

[7] On the dynamics of turbulent transport near marginal stability , 1995 .

[8] Hwa,et al. Avalanches, hydrodynamics, and discharge events in models of sandpiles. , 1992, Physical review. A, Atomic, molecular, and optical physics.

[9] Lu. Avalanches in continuum driven dissipative systems. , 1995, Physical review letters.

[10] Leonid A. Bunimovich,et al. Coupled map lattices: some topological and ergodic properties , 1997 .

[11] Tang,et al. Self-Organized Criticality: An Explanation of 1/f Noise , 2011 .

[12] Dieter Biskamp,et al. Nonlinear Magnetohydrodynamics: Index , 1993 .