Abstract
Recent numerical and observational studies contain conflicting reports on the spectrum of magnetohydrodynamic turbulence. In an attempt to clarify the issue we investigate anisotropic incompressible magnetohydrodynamic turbulence with a strong guide field B0. We perform numerical simulations of the reduced MHD equations in a special setting that allows us to elucidate the transition between weak and strong turbulent regimes. Denote k||, k⊥ characteristic field-parallel and field-perpendicular wavenumbers of the fluctuations, and bλ the fluctuating field at the scale λ ∼ 1/k⊥. We find that when the critical balance condition, k||B0 ∼ k⊥bλ, is satisfied, the turbulence is strong, and the energy spectrum is E(k⊥) ∝ k−3/2⊥. As the k|| width of the spectrum increases, the turbulence rapidly becomes weaker, and in the limit k||B0≫ k⊥bλ, the spectrum approaches E(k⊥) ∝ k−2⊥. The observed sensitivity of the spectrum to the balance of linear and nonlinear interactions may explain the conflicting numerical and observational findings where this balance condition is not well controlled.
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