Fast Magnetosonic Turbulence in Two-Dimensional Relativistic Plasmas
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We present fully kinetic simulations of driven 2D turbulence in a relativistic plasma, designed for the first time to induce a fast magnetosonic cascade. As the driving strength increases, turbulence transitions from a weak wave-dominated regime to strong shock-driven dynamics. Using spatiotemporal Fourier analysis, we identify fast modes, finding that the weak turbulence regime exhibits spectral properties that are in excellent agreement with theoretical expectations. Our results are relevant for the modeling of turbulence in high-energy astrophysical plasmas.
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Dynamics of fast magnetosonic wave turbulence
Simulations of the fast magnetosonic wave turbulence kinetic equation reveal a mixed forward-backward energy cascade and confirm the k^{-3/2} Kolmogorov-Zakharov spectrum with analytical constant.
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