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Taylor's Frozen-in Hypothesis for Magnetohydrodynamic turbulence and Solar Wind

Published 27 Apr 2022 in physics.plasm-ph, astro-ph.SR, physics.flu-dyn, and physics.space-ph | (2204.12790v1)

Abstract: In hydrodynamics, Taylor's frozen-in hypothesis connects the wavenumber spectrum to the frequency spectrum of a time series measured in real space. In this paper, we generalize Taylor's hypothesis to magnetohydrodynamic turbulence. We analytically derive one-point two-time correlation functions for Els\"{a}sser variables whose Fourier transform yields the corresponding frequency spectra, $ E\pm(f) $. We show that $ E\pm(f) \propto |{\bf U}_0 \mp {\bf B}_0|{2/3} $ in Kolmogorov-like model, and $ E\pm(f) \propto (B_0 |{\bf U}_0 \mp {\bf B}_0|){1/2} $ in Iroshnikov-Kraichnan model, where $ {\bf U}_0, {\bf B}_0$ are the mean velocity and mean magnetic fields respectively.

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