Ion-scale spectral break in turbulent plasmas with low-β<sub>i</sub>
POSTER
Abstract
The magnetic energy spectrum observed in the solar wind displays at the hydrodynamic scale a power-law behavior consistent with Alfvén turbulence. The transition from Alfvén to kinetic Alfvén turbulence predicts a break in the power law at the ion gyroscale if βe ~ βi >> 1, and at the ion acoustic scale if βi << βe << 1. The first case is consistent with observations, but in the second case, the available observations favor the ion inertial scale.
In this presentation, we examine the turbulent regime with βi << βe << 1 using numerical simulations run with kinetic/fluid hybrid particle-in-cell code Hybrid-VPIC, and we investigate the location of the spectral break and study what physical effects may be responsible for it.
In this presentation, we examine the turbulent regime with βi << βe << 1 using numerical simulations run with kinetic/fluid hybrid particle-in-cell code Hybrid-VPIC, and we investigate the location of the spectral break and study what physical effects may be responsible for it.
Presenters
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Cristian S Vega
University of Wisconsin - Madison
Authors
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Cristian S Vega
University of Wisconsin - Madison
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Stanislav A Boldyrev
University of Wisconsin - Madison
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Vadim S Roytershteyn
Space Science Institute
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Gian Luca Delzanno
Los Alamos National Laboratory