Signatures of Intermittency and Fine-scale Turbulence in the Very Local Interstellar Medium

This study presents the first Voyager 1 (V1) observation of magnetic turbulence intermittency and fine-scale structures associated with the propagation of a shock wave in the outer heliosheath. The intermittent event starts on DOY 178 in 2014 upstream of the shock wave that overtook V1 on DOY 237 at...

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Bibliographic Details
Published in:Astrophysical journal. Letters 2020-07, Vol.897 (2), p.L28
Main Authors: Fraternale, Federico, Pogorelov, Nikolai V., Burlaga, Leonard F.
Format: Article
Language:English
Subjects:
Compressibility
Current sheets
Fluid flow
Galactic cosmic rays
Heliopause
Heliosphere
Intermittency
Interstellar magnetic fields
Interstellar medium
Local interstellar medium
Magnetic fields
Magnetic reconnection
Magnetohydrodynamic turbulence
Magnetohydrodynamics
Normal distribution
Plasma waves
Radio emission
Shock wave propagation
Shock waves
Signatures
Turbulence
Wave generation
Waveforms
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Summary:This study presents the first Voyager 1 (V1) observation of magnetic turbulence intermittency and fine-scale structures associated with the propagation of a shock wave in the outer heliosheath. The intermittent event starts on DOY 178 in 2014 upstream of the shock wave that overtook V1 on DOY 237 at 140 au from the Sun. The distribution of magnetic field increments follows the q-Gaussian distribution with the index q 1.57 for the maximum variance component. Evidence is provided of fine-scale structures well below the Coulomb collisional scale. They undergo a turbulent cascade at scales less than 10−3 au. Observed magnetohydrodynamic fluctuations show signatures of irregular filamentary structures, sawtooth-like waveforms of mixed compressible/transverse nature, which evolve into shocklets and current sheets. Observational data challenges the interpretation of the interstellar plasma in the outer heliosheath as a featureless medium at scales below the collisional mean free path of about 1 au. These results are of importance for better understanding of turbulent processes in the outer heliosheath, including magnetic reconnection, shock-turbulence interaction, Galactic cosmic-ray transport, plasma wave generation, and radio emission.
ISSN:2041-8205
2041-8213
DOI:10.3847/2041-8213/ab9df5