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Main Authors: Arrò, Giuseppe, Li, Hui, Zank, Gary P., Zhao, Lingling, Adhikari, Laxman
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.19534
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author Arrò, Giuseppe
Li, Hui
Zank, Gary P.
Zhao, Lingling
Adhikari, Laxman
author_facet Arrò, Giuseppe
Li, Hui
Zank, Gary P.
Zhao, Lingling
Adhikari, Laxman
contents Recent Parker Solar Probe measurements have revealed that solar wind (SW) turbulence transits from a subsonic to a transonic regime near the Sun, while remaining sub-Alfvénic. These observations call for a revision of existing SW models, where turbulence is considered to be both subsonic and sub-Alfvénic. In this Letter, we introduce a new magnetohydrodynamic (MHD) model of Transonic sub-Alfvénic Turbulence (TsAT). Our model shows that turbulence is effectively nearly-incompressible (NI) and has a 2D + slab geometry not only in the subsonic limit, but also in the transonic regime, as long as it remains sub-Alfvénic, a condition essentially enforced everywhere in the heliosphere by the strong local magnetic field. These predictions are consistent with 3D MHD simulations, showing that transonic turbulence is dominated by low frequency quasi-2D incompressible structures, while compressible fluctuations are a minor component corresponding to low frequency slow modes and high frequency fast modes. Our new TsAT model extends existing NI theories of turbulence, and is potentially relevant for the theoretical and numerical modeling of space and astrophysical plasmas, including the near-Sun SW, the solar corona, and the interstellar medium.
format Preprint
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institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Nature of Transonic Sub-Alfvénic Turbulence and Density Fluctuations in the Near-Sun Solar Wind: Insights from Magnetohydrodynamic Simulations and Nearly-Incompressible Models
Arrò, Giuseppe
Li, Hui
Zank, Gary P.
Zhao, Lingling
Adhikari, Laxman
Solar and Stellar Astrophysics
Plasma Physics
Recent Parker Solar Probe measurements have revealed that solar wind (SW) turbulence transits from a subsonic to a transonic regime near the Sun, while remaining sub-Alfvénic. These observations call for a revision of existing SW models, where turbulence is considered to be both subsonic and sub-Alfvénic. In this Letter, we introduce a new magnetohydrodynamic (MHD) model of Transonic sub-Alfvénic Turbulence (TsAT). Our model shows that turbulence is effectively nearly-incompressible (NI) and has a 2D + slab geometry not only in the subsonic limit, but also in the transonic regime, as long as it remains sub-Alfvénic, a condition essentially enforced everywhere in the heliosphere by the strong local magnetic field. These predictions are consistent with 3D MHD simulations, showing that transonic turbulence is dominated by low frequency quasi-2D incompressible structures, while compressible fluctuations are a minor component corresponding to low frequency slow modes and high frequency fast modes. Our new TsAT model extends existing NI theories of turbulence, and is potentially relevant for the theoretical and numerical modeling of space and astrophysical plasmas, including the near-Sun SW, the solar corona, and the interstellar medium.
title Nature of Transonic Sub-Alfvénic Turbulence and Density Fluctuations in the Near-Sun Solar Wind: Insights from Magnetohydrodynamic Simulations and Nearly-Incompressible Models
topic Solar and Stellar Astrophysics
Plasma Physics
url https://arxiv.org/abs/2509.19534