Lagrangian Perspectives on the Small-scale Structure of Alfvénic Turbulence and Stochastic Models for the Dispersion of Fluid Particles and Magnetic Field Lines in the Solar Wind

Bian, N. H.; Li, Gang

doi:10.3847/1538-4365/ad4a5c

ApJS

2024

DOI: 10.3847/1538-4365/ad4a5c

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Lagrangian Perspectives on the Small-scale Structure of Alfvénic Turbulence and Stochastic Models for the Dispersion of Fluid Particles and Magnetic Field Lines in the Solar Wind

N. H. Bian,

Gang Li

Abstract: Lagrangian perspectives on the small-scale structure of anisotropic Alfvénic turbulence are adopted. We are interested in relating the statistical properties of the Eulerian field increments evaluated along the fluid particle trajectories, in the direction perpendicular to the guiding magnetic field and along the magnetic field lines. We establish the basis for a unified multifractal phenomenology of Eulerian and Lagrangian Alfvénic turbulence. The critical balance condition is generalized to structure functio… Show more

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2024

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Cited by 2 publications

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Derivation of a generalized Kappa distribution from the scaling properties of solar wind magnetic field fluctuations at kinetic scales

Belardinelli,

Benella,

Stumpo

et al. 2024

A&A

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Context. Kinetic-scale dynamics in weakly collisional space plasmas usually exhibits a self-similar statistics of magnetic field fluctuations. This implies the existence of an invariant probability density function (master curve). Aims. We provide an analytical derivation of the master curve by assuming that perpendicular fluctuations can be modeled through a scale-dependent Langevin equation. Methods. 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. The model predictions were tested on independent data samples of the fast solar wind measured near the Sun by Parker Solar Probe and near the Earth by Cluster. Results. The master curve is a generalization of the Kappa distribution with two parameters: One parameter regulates the tails, and the other controls the asymmetry. The model predictions match the spacecraft observations up to 5σ and even beyond in the case of perpendicular magnetic field fluctuations.

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Derivation of a generalized Kappa distribution from the scaling properties of solar wind magnetic field fluctuations at kinetic scales

Belardinelli,

Benella,

Stumpo

et al. 2024

A&A

View full text Add to dashboard Cite

show abstract

Anomalous diffusion model in Fourier space describing time correlation of shear Alfvénic turbulence

Nariyuki

2024

Physics of Plasmas

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Time-correlation function in shear Alfvénic turbulence is examined from the point of view of stochastic dynamics in Fourier space. The complex random oscillator model for Elsasser variables, which has been used to discuss the violation of the Taylor hypothesis, is revisited. By using Fourier phase diffusion obeying the scaled Brownian motion, the generalized random oscillator model is derived. Auto- and cross-correlations given by the resultant model indicate that the characteristics (parameters) of anomalous diffusion of Fourier phase are closely related to the residual energy, while the cross-helicity is directly given by the energy portion among Elsasser variables. The stochastic uncertainty of the Fourier amplitude is also incorporated by taking the approach of the stochastic growth theory into account, resulting in the generalized model including terms that mimic both local and non-local interactions.

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Lagrangian Perspectives on the Small-scale Structure of Alfvénic Turbulence and Stochastic Models for the Dispersion of Fluid Particles and Magnetic Field Lines in the Solar Wind

Cited by 2 publications

References 153 publications

Derivation of a generalized Kappa distribution from the scaling properties of solar wind magnetic field fluctuations at kinetic scales

Derivation of a generalized Kappa distribution from the scaling properties of solar wind magnetic field fluctuations at kinetic scales

Anomalous diffusion model in Fourier space describing time correlation of shear Alfvénic turbulence

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