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Subion-Scale Turbulence Driven by Magnetic Reconnection

Davide Manzini, F. Sahraoui, F. Califano

2023Physical Review Letters19 citationsDOIOpen Access PDF

Abstract

The interplay between plasma turbulence and magnetic reconnection remains an unsettled question in astrophysical and laboratory plasmas. Here, we report the first observational evidence that magnetic reconnection drives subion-scale turbulence in magnetospheric plasmas by transferring energy to small scales. We employ a spatial "coarse-grained" model of Hall magnetohydrodynamics, enabling us to measure the nonlinear energy transfer rate across scale ℓ at position x. Its application to Magnetospheric Multiscale mission data shows that magnetic reconnection drives intense energy transfer to subion-scales. This observational evidence is remarkably supported by the results from Hybrid Vlasov-Maxwell simulations of turbulence to which the coarse-grained model is also applied. These results can potentially answer some open questions on plasma turbulence in planetary environments.

Topics & Concepts

Magnetic reconnectionTurbulencePhysicsScale (ratio)Statistical physicsComputational physicsMechanicsPlasmaNuclear physicsQuantum mechanicsSolar and Space Plasma DynamicsIonosphere and magnetosphere dynamicsGeomagnetism and Paleomagnetism Studies
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