Multiscale nature of the dissipation range in gyrokinetic simulations of Alfv\'enic turbulence

D. Told (1 , 2) , F. Jenko (1 , J. M. TenBarge (3) , G. G. Howes (4) , G. W. Hammett (5) ((1) Department of Physics , Astronomy , University of California

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Los Angeles USA (2) Max-Planck-Institut f\"ur Plasmaphysik Garching Germany (3) IREAP University of Maryland College Park (4) Department of Physics University of Iowa Iowa City (5) Princeton Plasma Physics Laboratory Princeton NJ USA)

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classification ⚛️ physics.plasm-ph physics.space-ph

keywords dissipationrangealfvturbulenceelectronenergyenicgyrokinetic

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Nonlinear energy transfer and dissipation in Alfv\'en wave turbulence are analyzed in the first gyrokinetic simulation spanning all scales from the tail of the MHD range to the electron gyroradius scale. For typical solar wind parameters at 1 AU, about 30% of the nonlinear energy transfer close to the electron gyroradius scale is mediated by modes in the tail of the MHD cascade. Collisional dissipation occurs across the entire kinetic range $k_\perp\rho_i\gtrsim 1$. Both mechanisms thus act on multiple coupled scales, which have to be retained for a comprehensive picture of the dissipation range in Alfv\'enic turbulence.

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Multiscale nature of the dissipation range in gyrokinetic simulations of Alfv\'enic turbulence

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