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Solar Wind Turbulence Around Mars: Relation between the Energy Cascade Rate and the Proton Cyclotron Waves Activity

Nahuel Andrés, Norberto Romanelli, Lina Z. Hadid, Fouad Sahraoui, Gina DiBraccio, Jasper Halekas

2020The Astrophysical Journal29 citationsDOIOpen Access PDF

Abstract

Abstract The first estimation of the incompressible energy cascade rate at magnetohydrodynamic (MHD) scales in the plasma upstream of the Martian bow shock is obtained, making use of magnetic field and plasma observations provided by Mars Atmosphere and Volatile EvolutioN (MAVEN) over 600 orbits. In particular, the energy cascade rate is computed for events with and without proton cyclotron wave (PCW) activity, for time intervals when MAVEN was in the solar wind with no magnetic connection to the bow shock. It is shown that the nonlinear cascade of energy at the MHD scales is slightly amplified when PCWs are present in the plasma, around the Martian perihelion. In addition, the analysis of the normalized cross helicity and residual energy for the turbulent fluctuations shows the presence of Alfvénic and non-Alfvénic fluctuations in a magnetic dominant regime for the majority of the cases.

Topics & Concepts

PhysicsEnergy cascadeCascadeSolar windMagnetohydrodynamic turbulenceMagnetohydrodynamicsComputational physicsMagnetopauseTurbulenceMagnetic fieldShock waveHelicityBow shock (aerodynamics)MagnetosheathPlasmaMagnetic energyCyclotronMagnetohydrodynamic driveCoronal mass ejectionProtonAstrophysicsMagnetic helicityMagnetic reconnectionGyroradiusInterplanetary mediumInterplanetary magnetic fieldWave turbulenceMars Exploration ProgramAtomic physicsShock (circulatory)MechanicsEnergy transformationCorona (planetary geology)Solar and Space Plasma DynamicsIonosphere and magnetosphere dynamicsPlanetary Science and Exploration
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