Magnetic Field Spectral Evolution in the Inner Heliosphere

Magnetic Field Spectral Evolution in the Inner Heliosphere

Parker Solar Probe and Solar Orbiter data are used to investigate the radial evolution of magnetic turbulence between 0.06 ≲ R ≲ 1 au. The spectrum is studied as a function of scale, normalized to the ion inertial scale d i . In the vicinity of the Sun, the inertial range is limited to a narrow rang...

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Veröffentlicht in:Astrophysical journal. Letters 2023-01, Vol.943 (1), p.L8
Hauptverfasser: Sioulas, Nikos, Huang, Zesen, Shi, Chen, Velli, Marco, Tenerani, Anna, Bowen, Trevor A., Bale, Stuart D., Huang, Jia, Vlahos, Loukas, Woodham, L. D., Horbury, T. S., de Wit, Thierry Dudok, Larson, Davin, Kasper, Justin, Owen, Christopher J., Stevens, Michael L., Case, Anthony, Pulupa, Marc, Malaspina, David M., Bonnell, J. W., Livi, Roberto, Goetz, Keith, Harvey, Peter R., MacDowall, Robert J., Maksimović, Milan, Louarn, P., Fedorov, A.
Format: Artikel
Sprache:eng
Schlagworte:
Evolution
Heliosphere
Interplanetary turbulence
Intervals
Magnetic fields
Magnetohydrodynamics
Plasma astrophysics
Sciences of the Universe
Solar Orbiter (ESA)
Solar orbits
Solar probes
Solar wind
Solar wind speed
Space plasmas
Spectra
Wind speed
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Zusammenfassung:Parker Solar Probe and Solar Orbiter data are used to investigate the radial evolution of magnetic turbulence between 0.06 ≲ R ≲ 1 au. The spectrum is studied as a function of scale, normalized to the ion inertial scale d i . In the vicinity of the Sun, the inertial range is limited to a narrow range of scales and exhibits a power-law exponent of, α B = −3/2, independent of plasma parameters. The inertial range grows with distance, progressively extending to larger spatial scales, while steepening toward a α B = −5/3 scaling. It is observed that spectra for intervals with large magnetic energy excesses and low Alfvénic content steepen significantly with distance, in contrast to highly Alfvénic intervals that retain their near-Sun scaling. The occurrence of steeper spectra in slower wind streams may be attributed to the observed positive correlation between solar wind speed and Alfvénicity.
ISSN:2041-8205
2041-8213
DOI:10.3847/2041-8213/acaeff