A numerical study of the energy cascade in two-dimensional magnetohydrodynamic turbulence(Reports)

概要

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The energy cascade in two-dimensional magnetohydrodynamic turbulence is studied using a direct numerical simulation. The feature of the present study is to introduce an energy drain for the velocity field. We set the energy drain in the Fourier modes for 10≦k≦15, where k denotes the wavenumber. By introducing the energy drain, the distant nature of the nonlinear interaction in wavenumber space is clearly shown. It is found that the magnetic energy spectrum has a smooth shape, though the kinetic energy spectrum possesses a sharp drop owing to the energy drain. The implication of the results for the geomagnetic field is also discussed.
東北生活文化大学・東北生活文化大学短期大学部の論文