We study scaling in fluctuations of the geomagnetic indices (AE, AU, and AL) that provide a measure of magnetospheric activity and of the ε parameter which is a measure of the solar wind driver. Generalized structure function (GSF) analysis shows that fluctuations exhibit self-similar scaling up to about 1 hour for the AU index and about 2 hours for AL, AE and ε when the most extreme fluctuations over 10 standard deviations are excluded. The scaling exponents of the GSF are found to be similar for the three AE indices, and to differ significantly from that of ε. This is corroborated by direct comparison of their rescaled probability density functions
The solar wind exhibits scaling typical of intermittent turbulence in the statistics of in situ fluc...
International audienceIn this review we collate recent results for the statistical scaling propertie...
Solar wind turbulence is dominated by Alfvénic fluctuations with power spectral exponents that somew...
We study scaling in fluctuations of the geomagnetic indices (AE, AU, and AL) that provide a measure ...
We apply the finite size scaling technique to quantify the statistical properties of fluctuations in...
The evolution of magnetospheric indices on temporal scales shorter than that of substorms is charact...
We apply the finite size scaling technique to quantify the statistical properties of fluctuations in...
We apply the finite size scaling technique to quantify the statistical properties of fluctuations in...
The evolution of magnetospheric indices on temporal scales shorter than that of substorms is charact...
Statistical properties of the interplanetary magnetic field fluctuations can provide an important in...
International audienceMulti-scale structure of the solar wind in the ecliptic at 1 AU undergoes sign...
International audiencePreliminary results are presented which suggest that scaling and singularity c...
This paper identifies some scaling relationships between solar activity and geomagnetic activity. We...
International audienceThe solar wind is a highly turbulent and intermittent medium at frequencies be...
Abstract. Multi-scale structure of the solar wind in the eclip-tic at 1 AU undergoes significant evo...
The solar wind exhibits scaling typical of intermittent turbulence in the statistics of in situ fluc...
International audienceIn this review we collate recent results for the statistical scaling propertie...
Solar wind turbulence is dominated by Alfvénic fluctuations with power spectral exponents that somew...
We study scaling in fluctuations of the geomagnetic indices (AE, AU, and AL) that provide a measure ...
We apply the finite size scaling technique to quantify the statistical properties of fluctuations in...
The evolution of magnetospheric indices on temporal scales shorter than that of substorms is charact...
We apply the finite size scaling technique to quantify the statistical properties of fluctuations in...
We apply the finite size scaling technique to quantify the statistical properties of fluctuations in...
The evolution of magnetospheric indices on temporal scales shorter than that of substorms is charact...
Statistical properties of the interplanetary magnetic field fluctuations can provide an important in...
International audienceMulti-scale structure of the solar wind in the ecliptic at 1 AU undergoes sign...
International audiencePreliminary results are presented which suggest that scaling and singularity c...
This paper identifies some scaling relationships between solar activity and geomagnetic activity. We...
International audienceThe solar wind is a highly turbulent and intermittent medium at frequencies be...
Abstract. Multi-scale structure of the solar wind in the eclip-tic at 1 AU undergoes significant evo...
The solar wind exhibits scaling typical of intermittent turbulence in the statistics of in situ fluc...
International audienceIn this review we collate recent results for the statistical scaling propertie...
Solar wind turbulence is dominated by Alfvénic fluctuations with power spectral exponents that somew...