Daniele Belardinelli, Simone Benella, Mirko Stumpo, Giuseppe Consolini
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Derivation of generalized Kappa distribution from scaling properties of solar wind magnetic field fluctuations at kinetic scales
Kinetic scale dynamics in weakly-collisional space plasmas usually exhibits a
self-similar statistics of magnetic field fluctuations which implies the
existence of an invariant probability density function (master curve). We
provide an analytical derivation of the master curve by assuming that
perpendicular fluctuations can be modeled through a scale-dependent Langevin
equation. In our model, magnetic field fluctuations are the stochastic variable
and their scale-to-scale evolution is assumed to be a Langevin process. We
propose a formal derivation of the master curve describing the statistics of
the fluctuations at kinetic scales. Model predictions are tested on independent
data samples of fast solar wind measured near the Sun by Parker Solar Probe and
near the Earth by Cluster. The master curve is a generalization of the Kappa
distribution with two parameters: one regulating the tails and the other one
controlling the asymmetry. Model predictions match the spacecraft observations
up to 5$\sigma$ and even beyond in the case of perpendicular magnetic field
fluctuations.
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