The Radial Variation of the Solar Wind Turbulence Spectra near the Kinetic Break Scale from Parker Solar Probe Measurements
Date
2023Author
Lotz, S
Nel, A.E
Wicks, R. T.
Roberts, O.W
Engelbrecht, N.E
Strauss, R.D
Botha, G.J.J
Konta, E.P
Bale, S.D
Metadata
Show full item recordAbstract
In this study we examine the radial dependence of the inertial and dissipation range indices, as well as the spectral
break separating the inertial and dissipation range in power density spectra of interplanetary magnetic field
fluctuations using Parker Solar Probe data from the fifth solar encounter between ∼0.1 and ∼0.7 au. The derived
break wavenumber compares reasonably well with previous estimates at larger radial distances and is consistent
with gyro-resonant damping of Alfvénic fluctuations by thermal protons. We find that the inertial scale power-law
index varies between approximately −1.65 and −1.45. This is consistent with either the Kolmogorov (−5/3) or
Iroshnikov–Kraichnan (−3/2) values, and has a very weak radial dependence with a possible hint that the
spectrum becomes steeper closer to the Sun. The dissipation range power-law index, however, has a clear
dependence on radial distance (and turbulence age), decreasing from −3 near 0.7 au (4 days) to −4 [±0.3] at 0.1 au
(0.75 days) closer to the Sun.
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- Faculty of Engineering [1129]