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Evolution of Switchbacks in the Inner Heliosphere

Anna Tenerani, Nikos Sioulas, Lorenzo Matteini, Olga Panasenco, Chen Shi, Marco Velli

2021The Astrophysical Journal Letters54 citationsDOIOpen Access PDF

Abstract

Abstract We analyze magnetic field data from the first six encounters of Parker Solar Probe, three Helios fast streams and two Ulysses south polar passes covering heliocentric distances 0.1 ≲ R ≲ 3 au. We use this data set to statistically determine the evolution of switchbacks of different periods and amplitudes with distance from the Sun. We compare the radial evolution of magnetic field variances with that of the mean square amplitudes of switchbacks, and quantify the radial evolution of the cumulative counts of switchbacks per kilometer. We find that the amplitudes of switchbacks decrease faster than the overall turbulent fluctuations, in a way consistent with the radial decrease of the mean magnetic field. This could be the result of a saturation of amplitudes and may be a signature of decay processes of large amplitude Alfvénic fluctuations in the solar wind. We find that the evolution of switchback occurrence in the solar wind is scale dependent: the fraction of longer-duration switchbacks increases with radial distance, whereas it decreases for shorter switchbacks. This implies that switchback dynamics is a complex process involving both decay and in situ generation in the inner heliosphere. We confirm that switchbacks can be generated by the expansion, although other types of switchbacks generated closer to the Sun cannot be ruled out.

Topics & Concepts

AmplitudePhysicsHeliosphereSolar windAstrophysicsInterplanetary magnetic fieldAstronomyMagnetic fieldPolarInterplanetary mediumSaturation (graph theory)TurbulenceSolar rotationSquare (algebra)Solar SystemComputational physicsRadial velocitySolar maximumMean squareSolar cycleCosmic rayMagnetic fluxTime evolutionSolar and Space Plasma DynamicsStellar, planetary, and galactic studiesIonosphere and magnetosphere dynamics
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