Universe (Apr 2024)

The Changes in Multiscale Solar Wind Fluctuations on the Path from the Sun to Earth

  • Igor D. Volodin,
  • Maria O. Riazantseva,
  • Liudmila S. Rakhmanova,
  • Alexander A. Khokhlachev,
  • Yuri I. Yermolaev

DOI
https://doi.org/10.3390/universe10040186
Journal volume & issue
Vol. 10, no. 4
p. 186

Abstract

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This paper is devoted to the analysis of fluctuations in the solar wind plasma and interplanetary magnetic field parameters observed by Solar Orbiter and WIND spacecraft at different scales ranging from ~103 to 107 km. We consider two long data intervals where the distances between the spacecraft are 0.1 and 0.5 AU, respectively, and they are located close to the Sun–Earth line. Transformation of the fluctuation’s properties on the way from the Sun to Earth is analyzed for different types of solar wind associated with quasi-stationary and transient solar phenomena. The time series of bulk speed are shown to undergo a slight modification, even for large spacecraft separation, while the time series of the interplanetary magnetic field magnitude and components as well as proton density may be transformed even at a relatively short distance. Though the large-scale solar wind structures propagate the distance up to 0.5 AU without significant change, local structures at smaller scales may be modified. The statistical properties of the fluctuations such as relative standard deviation or probability distribution function and its moments remain nearly unchanged at different distances between the two spacecraft and are likely to depend mostly on the type of the solar wind.

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