http://arxiv.org/abs/2205.14096
Observations from Parker Solar Probe’s first five orbits are used to investigate the helioradial evolution of probability density functions (PDFs) of fluctuations of magnetic field components, between (\sim 28) – 200 (\rs). Transformation of the magnetic field vector to a local mean-field coordinate system permits examination of anisotropy relative to the mean magnetic field direction. Attention is given to effects of averaging-interval size. It is found that PDFs of the perpendicular fluctuations are well approximated by a Gaussian function, with the parallel fluctuations less so: kurtoses of the latter are generally larger than 10, and their PDFs indicate increasing skewness with decreasing distance (r) from the Sun. The ratio of perpendicular to parallel variances is greater than unity; this variance anisotropy becomes stronger with decreasing (r). The ratio of the total rms fluctuation strength to the mean field magnitude decreases with decreasing (r), with a value (\sim 0.8) near 1 AU and (\sim 0.5) at 0.14 AU; the ratio is well approximated by a (r^{1/4}) power law. These findings improve our understanding of the radial evolution of turbulence in the solar wind, and have implications for related phenomena such as energetic-particle transport in the inner heliosphere.
R. Chhiber
Mon, 30 May 22
13/47
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