Dynamics of decaying two-dimensional magnetohydrodynamic turbulence

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  • D. Biskamp
    Max-Planck-Institut für Plasmaphysik, EURATOM Association, 8046 Garching bei München, Federal Republic of Germany
  • H. Welter
    Max-Planck-Institut für Plasmaphysik, EURATOM Association, 8046 Garching bei München, Federal Republic of Germany

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<jats:p>High-resolution numerical studies of decaying two-dimensional magnetohydrodynamic turbulence were performed with up to 10242 collocation points in general periodic systems using various initial states, but restricting consideration to weak velocity-magnetic field correlation ρ. The global evolution is self-similar with constant kinetic to magnetic energy ratio EV/EM, macro- and microscale Reynolds numbers, and correlation ρ, while the total energy decays as E(t)∝(t+t0)−1. As in three dimensions, dissipative small-scale turbulence adjusts in such a way as to make the energy dissipation rate ε independent of the collisional dissipation coefficients. Normalized energy spectra are also invariant. The spectral index in the inertial range is, in general, close to 3/2 in agreement with Kraichnan’s Alfvén wave argument Ek =DB1/2ε1/2k−3/2, B=(EM)1/2, D≂1.8±0.2, but may be close to 5/3 in transient states, in which turbulence is concentrated in regions of weak magnetic field. In the dissipation range, intermittency gives rise to a modified dissipation scale leff =(l2λ)1/3, with l=Kolmogorov scale and λ=Taylor microscale. This reflects the intermittency of the dissipation process, which is consistent with the picture of current microsheets of thickness l and width and spacing λ.</jats:p>

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