Diffusion and radiation in magnetized collisionless plasmas with small-scale Whistler turbulence

Magnetized high-energy-density plasmas can often have strong electromagnetic fluctuations whose correlation scale is smaller than the electron Larmor radius. Radiation from the electrons in such plasmas – which markedly differs from both synchrotron and cyclotron radiation – is tightly related to th...

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Veröffentlicht in:	Journal of plasma physics 2016-04, Vol.82 (2), p.55; 147; 550; 181; 201; 46; 507; 061101; 1368; L13; 337; A11224; 204; 033104; 013103; 5; 369; 321; 27555; 61; 12023; 65; 704; 869; 147; 55; 102902; 8011; 555; 095007; A11103; 185004; 1283; L9; 105501; 929; 75; L21; 54; L39; 1; 175001; 022302; L44; 213; 5645; A00F19; L2; 83; 012030; 775-55; 147; 550; 181; 201; 46; 507; 061101; 1368; L13; 337; A11224; 204; 033104; 013103; 5; 369; 321; 27555; 61; 12023; 65; 704; 869; 147; 55; 102902; 8011; 555; 095007; A11103; 185004; 1283; L9; 105501; 929; 75; L21; 54; L39; 1; 175001; 022302; L44; 213; 5645; A00F19; L2; 83; 012030; 775, Article 905820207
Hauptverfasser:	Keenan, Brett D., Medvedev, Mikhail V.
Format:	Artikel
Sprache:	eng
Schlagworte:	Computational fluid dynamics Cyclotron radiation Diffusion Electrons Fluid flow High energy physics Magnetic fields Plasma Plasma physics Radiation Small scale Turbulence Turbulent flow
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container_title	Journal of plasma physics
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creator	Keenan, Brett D. Medvedev, Mikhail V.
description	Magnetized high-energy-density plasmas can often have strong electromagnetic fluctuations whose correlation scale is smaller than the electron Larmor radius. Radiation from the electrons in such plasmas – which markedly differs from both synchrotron and cyclotron radiation – is tightly related to their energy and pitch-angle diffusion. In this paper, we present a comprehensive theoretical and numerical study of particle transport in cold, ‘small-scale’ Whistler-mode turbulence and its relation to the spectra of radiation simultaneously produced by these particles. We emphasize that this relation is a superb diagnostic tool of laboratory, astrophysical, interplanetary and solar plasmas with a mean magnetic field and strong small-scale turbulence.
doi_str_mv	10.1017/S0022377816000295
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ispartof	Journal of plasma physics, 2016-04, Vol.82 (2), p.55; 147; 550; 181; 201; 46; 507; 061101; 1368; L13; 337; A11224; 204; 033104; 013103; 5; 369; 321; 27555; 61; 12023; 65; 704; 869; 147; 55; 102902; 8011; 555; 095007; A11103; 185004; 1283; L9; 105501; 929; 75; L21; 54; L39; 1; 175001; 022302; L44; 213; 5645; A00F19; L2; 83; 012030; 775-55; 147; 550; 181; 201; 46; 507; 061101; 1368; L13; 337; A11224; 204; 033104; 013103; 5; 369; 321; 27555; 61; 12023; 65; 704; 869; 147; 55; 102902; 8011; 555; 095007; A11103; 185004; 1283; L9; 105501; 929; 75; L21; 54; L39; 1; 175001; 022302; L44; 213; 5645; A00F19; L2; 83; 012030; 775, Article 905820207
issn	0022-3778 1469-7807
language	eng
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source	Cambridge University Press Journals Complete
subjects	Computational fluid dynamics Cyclotron radiation Diffusion Electrons Fluid flow High energy physics Magnetic fields Plasma Plasma physics Radiation Small scale Turbulence Turbulent flow
title	Diffusion and radiation in magnetized collisionless plasmas with small-scale Whistler turbulence
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