Arbitrary-order Hilbert Spectral Analysis and Intermittency in Solar Wind Density Fluctuations

The properties of inertial- and kinetic-range solar wind turbulence have been investigated with the arbitrary-order Hilbert spectral analysis method, applied to high-resolution density measurements. Due to the small sample size and to the presence of strong nonstationary behavior and large-scale str...

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Published inThe Astrophysical journal Vol. 859; no. 1; pp. 27 - 34
Main Authors Carbone, Francesco, Sorriso-Valvo, Luca, Alberti, Tommaso, Lepreti, Fabio, Chen, Christopher H. K., N me ek, Zdenek, Šafránková, Jana
Format Journal Article
LanguageEnglish
Published Philadelphia The American Astronomical Society 20.05.2018
IOP Publishing
Subjects
Astrophysics
Brownian motion
Constraint modelling
Density
Exponents
Fluctuations
plasmas
Power law
Scaling
Solar wind
Solar wind density
Solar wind turbulence
Spectra
Spectral analysis
Spectral methods
Spectrum analysis
Turbulence
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Abstract The properties of inertial- and kinetic-range solar wind turbulence have been investigated with the arbitrary-order Hilbert spectral analysis method, applied to high-resolution density measurements. Due to the small sample size and to the presence of strong nonstationary behavior and large-scale structures, the classical analysis in terms of structure functions may prove to be unsuccessful in detecting the power-law behavior in the inertial range, and may underestimate the scaling exponents. However, the Hilbert spectral method provides an optimal estimation of the scaling exponents, which have been found to be close to those for velocity fluctuations in fully developed hydrodynamic turbulence. At smaller scales, below the proton gyroscale, the system loses its intermittent multiscaling properties and converges to a monofractal process. The resulting scaling exponents, obtained at small scales, are in good agreement with those of classical fractional Brownian motion, indicating a long-term memory in the process, and the absence of correlations around the spectral-break scale. These results provide important constraints on models of kinetic-range turbulence in the solar wind.
AbstractList The properties of inertial- and kinetic-range solar wind turbulence have been investigated with the arbitrary-order Hilbert spectral analysis method, applied to high-resolution density measurements. Due to the small sample size and to the presence of strong nonstationary behavior and large-scale structures, the classical analysis in terms of structure functions may prove to be unsuccessful in detecting the power-law behavior in the inertial range, and may underestimate the scaling exponents. However, the Hilbert spectral method provides an optimal estimation of the scaling exponents, which have been found to be close to those for velocity fluctuations in fully developed hydrodynamic turbulence. At smaller scales, below the proton gyroscale, the system loses its intermittent multiscaling properties and converges to a monofractal process. The resulting scaling exponents, obtained at small scales, are in good agreement with those of classical fractional Brownian motion, indicating a long-term memory in the process, and the absence of correlations around the spectral-break scale. These results provide important constraints on models of kinetic-range turbulence in the solar wind.
Abstract The properties of inertial- and kinetic-range solar wind turbulence have been investigated with the arbitrary-order Hilbert spectral analysis method, applied to high-resolution density measurements. Due to the small sample size and to the presence of strong nonstationary behavior and large-scale structures, the classical analysis in terms of structure functions may prove to be unsuccessful in detecting the power-law behavior in the inertial range, and may underestimate the scaling exponents. However, the Hilbert spectral method provides an optimal estimation of the scaling exponents, which have been found to be close to those for velocity fluctuations in fully developed hydrodynamic turbulence. At smaller scales, below the proton gyroscale, the system loses its intermittent multiscaling properties and converges to a monofractal process. The resulting scaling exponents, obtained at small scales, are in good agreement with those of classical fractional Brownian motion, indicating a long-term memory in the process, and the absence of correlations around the spectral-break scale. These results provide important constraints on models of kinetic-range turbulence in the solar wind.
Author Chen, Christopher H. K.
Carbone, Francesco
N me ek, Zdenek
Sorriso-Valvo, Luca
Alberti, Tommaso
Šafránková, Jana
Lepreti, Fabio
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  fullname: Sorriso-Valvo, Luca
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  orcidid: 0000-0003-4178-5206
  surname: Šafránková
  fullname: Šafránková, Jana
  organization: Faculty of Mathematics and Physics, Charles University , Prague 18000, Czech Republic
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ContentType Journal Article
Copyright 2018. The American Astronomical Society. All rights reserved.
Copyright IOP Publishing May 20, 2018
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DocumentTitleAlternate Arbitrary-order Hilbert Spectral Analysis and Intermittency in Solar Wind Density Fluctuations
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Snippet The properties of inertial- and kinetic-range solar wind turbulence have been investigated with the arbitrary-order Hilbert spectral analysis method, applied...
Abstract The properties of inertial- and kinetic-range solar wind turbulence have been investigated with the arbitrary-order Hilbert spectral analysis method,...
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SubjectTerms Astrophysics
Brownian motion
Constraint modelling
Density
Exponents
Fluctuations
plasmas
Power law
Scaling
Solar wind
Solar wind density
Solar wind turbulence
Spectra
Spectral analysis
Spectral methods
Spectrum analysis
Turbulence
Title Arbitrary-order Hilbert Spectral Analysis and Intermittency in Solar Wind Density Fluctuations
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