Evidence of a cascade and dissipation of solar-wind turbulence at the electron gyroscale

F. Sahraoui; M. L. Goldstein; P. Robert; Yu V. Khotyaintsev

doi:10.1103/PhysRevLett.102.231102

Evidence of a cascade and dissipation of solar-wind turbulence at the electron gyroscale

F. Sahraoui
, M. L. Goldstein
, P. Robert
, Yu V. Khotyaintsev

Research output: Contribution to journal › Article › peer-review

Abstract

We report the first direct determination of the dissipation range of magnetofluid turbulence in the solar wind at the electron scales. Combining high resolution magnetic and electric field data of the Cluster spacecraft, we computed the spectrum of turbulence and found two distinct breakpoints in the magnetic spectrum at 0.4 and 35 Hz, which correspond, respectively, to the Doppler-shifted proton and electron gyroscales, fρp and fρe. Below fρp, the spectrum follows a Kolmogorov scaling f-1.62, typical of spectra observed at 1 AU. Above fρp, a second inertial range is formed with a scaling f-2.3 down to fρe. Above fρe, the spectrum has a steeper power law ∼f-4.1 down to the noise level of the instrument. We interpret this as the dissipation range and show a remarkable agreement with theoretical predictions of a quasi-two-dimensional cascade into Kinetic Alfvén Waves (KAW).

Original language	English
Article number	231102
Journal	Physical Review Letters
Volume	102
Issue number	23
DOIs	https://doi.org/10.1103/PhysRevLett.102.231102
Publication status	Published - 10 Jun 2009

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10.1103/PhysRevLett.102.231102

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title = "Evidence of a cascade and dissipation of solar-wind turbulence at the electron gyroscale",

abstract = "We report the first direct determination of the dissipation range of magnetofluid turbulence in the solar wind at the electron scales. Combining high resolution magnetic and electric field data of the Cluster spacecraft, we computed the spectrum of turbulence and found two distinct breakpoints in the magnetic spectrum at 0.4 and 35 Hz, which correspond, respectively, to the Doppler-shifted proton and electron gyroscales, fρp and fρe. Below fρp, the spectrum follows a Kolmogorov scaling f-1.62, typical of spectra observed at 1 AU. Above fρp, a second inertial range is formed with a scaling f-2.3 down to fρe. Above fρe, the spectrum has a steeper power law ∼f-4.1 down to the noise level of the instrument. We interpret this as the dissipation range and show a remarkable agreement with theoretical predictions of a quasi-two-dimensional cascade into Kinetic Alfv{\'e}n Waves (KAW).",

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AU - Sahraoui, F.

AU - Goldstein, M. L.

AU - Robert, P.

AU - Khotyaintsev, Yu V.

PY - 2009/6/10

Y1 - 2009/6/10

N2 - We report the first direct determination of the dissipation range of magnetofluid turbulence in the solar wind at the electron scales. Combining high resolution magnetic and electric field data of the Cluster spacecraft, we computed the spectrum of turbulence and found two distinct breakpoints in the magnetic spectrum at 0.4 and 35 Hz, which correspond, respectively, to the Doppler-shifted proton and electron gyroscales, fρp and fρe. Below fρp, the spectrum follows a Kolmogorov scaling f-1.62, typical of spectra observed at 1 AU. Above fρp, a second inertial range is formed with a scaling f-2.3 down to fρe. Above fρe, the spectrum has a steeper power law ∼f-4.1 down to the noise level of the instrument. We interpret this as the dissipation range and show a remarkable agreement with theoretical predictions of a quasi-two-dimensional cascade into Kinetic Alfvén Waves (KAW).

AB - We report the first direct determination of the dissipation range of magnetofluid turbulence in the solar wind at the electron scales. Combining high resolution magnetic and electric field data of the Cluster spacecraft, we computed the spectrum of turbulence and found two distinct breakpoints in the magnetic spectrum at 0.4 and 35 Hz, which correspond, respectively, to the Doppler-shifted proton and electron gyroscales, fρp and fρe. Below fρp, the spectrum follows a Kolmogorov scaling f-1.62, typical of spectra observed at 1 AU. Above fρp, a second inertial range is formed with a scaling f-2.3 down to fρe. Above fρe, the spectrum has a steeper power law ∼f-4.1 down to the noise level of the instrument. We interpret this as the dissipation range and show a remarkable agreement with theoretical predictions of a quasi-two-dimensional cascade into Kinetic Alfvén Waves (KAW).

UR - https://www.scopus.com/pages/publications/66949122777

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DO - 10.1103/PhysRevLett.102.231102

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JO - Physical Review Letters

JF - Physical Review Letters

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M1 - 231102

ER -

Evidence of a cascade and dissipation of solar-wind turbulence at the electron gyroscale

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