Finite size scaling in the solar wind magnetic field energy density as seen by WIND

Statistical properties of the interplanetary magnetic field fluctuations can provide an important insight into the solar wind turbulent cascade. Recently, analysis of the Probability Density Functions (PDF) of the velocity and magnetic field fluctuations has shown that these exhibit non‐Gaussian pro...

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Veröffentlicht in:	Geophysical research letters 2002-05, Vol.29 (10), p.86-1-86-4
Hauptverfasser:	Hnat, B., Chapman, S. C., Rowlands, G., Watkins, N. W., Farrell, W. M.
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Sprache:	eng
Schlagworte:	Asymptotic properties Cascades Energy density Fluctuation Magnetic fields Mathematical analysis Probability density functions Solar wind
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container_end_page	86-4
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container_title	Geophysical research letters
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creator	Hnat, B. Chapman, S. C. Rowlands, G. Watkins, N. W. Farrell, W. M.
description	Statistical properties of the interplanetary magnetic field fluctuations can provide an important insight into the solar wind turbulent cascade. Recently, analysis of the Probability Density Functions (PDF) of the velocity and magnetic field fluctuations has shown that these exhibit non‐Gaussian properties on small time scales while large scale features appear to be uncorrelated. Here we apply the finite size scaling technique to explore the scaling of the magnetic field energy density fluctuations as seen by WIND. We find a single scaling sufficient to collapse the curves over the entire investigated range. The rescaled PDF follow a non Gaussian distribution with asymptotic behavior well described by the Gamma distribution arising from a finite range Lévy walk. Such mono scaling suggests that a Fokker‐Planck approach can be applied to study the PDF dynamics. These results strongly suggest the existence of a common, nonlinear process on the time scale up to 26 hours.
doi_str_mv	10.1029/2001GL014587
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subjects	Asymptotic properties Cascades Energy density Fluctuation Magnetic fields Mathematical analysis Probability density functions Solar wind
title	Finite size scaling in the solar wind magnetic field energy density as seen by WIND
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