Entropy generation across earth's collisionless bow shock

G. K. Parks; E. Lee; M. McCarthy; M. Goldstein; S. Y. Fu; J. B. Cao; P. Canu; N. Lin; M. Wilber; I. Dandouras; H. Réme; A. Fazakerley

doi:10.1103/PhysRevLett.108.061102

Entropy generation across earth's collisionless bow shock

G. K. Parks
, E. Lee
, M. McCarthy
, M. Goldstein
, S. Y. Fu
, J. B. Cao
, P. Canu
, N. Lin
, M. Wilber
, I. Dandouras
, H. Réme
, A. Fazakerley

University of California, Space Sciences Laboratory
Kyung Hee University
University of Washington
NASA Goddard Space Flight Center
Tsinghua University
Beihang University
IRAP/CNRS
UCL Mullard Space Science Laboratory

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

Earth's bow shock is a collisionless shock wave but entropy has never been directly measured across it. The plasma experiments on Cluster and Double Star measure 3D plasma distributions upstream and downstream of the bow shock allowing calculation of Boltzmann's entropy function H and his famous H theorem, dH/dt≤0. The collisionless Boltzmann (Vlasov) equation predicts that the total entropy does not change if the distribution function across the shock becomes nonthermal, but it allows changes in the entropy density. Here, we present the first direct measurements of entropy density changes across Earth's bow shock and show that the results generally support the model of the Vlasov analysis. These observations are a starting point for a more sophisticated analysis that includes 3D computer modeling of collisionless shocks with input from observed particles, waves, and turbulences.

langue originale	Anglais
Numéro d'article	061102
journal	Physical Review Letters
Volume	108
Numéro de publication	6
Les DOIs	https://doi.org/10.1103/PhysRevLett.108.061102
état	Publié - 9 févr. 2012

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10.1103/PhysRevLett.108.061102

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title = "Entropy generation across earth's collisionless bow shock",

abstract = "Earth's bow shock is a collisionless shock wave but entropy has never been directly measured across it. The plasma experiments on Cluster and Double Star measure 3D plasma distributions upstream and downstream of the bow shock allowing calculation of Boltzmann's entropy function H and his famous H theorem, dH/dt≤0. The collisionless Boltzmann (Vlasov) equation predicts that the total entropy does not change if the distribution function across the shock becomes nonthermal, but it allows changes in the entropy density. Here, we present the first direct measurements of entropy density changes across Earth's bow shock and show that the results generally support the model of the Vlasov analysis. These observations are a starting point for a more sophisticated analysis that includes 3D computer modeling of collisionless shocks with input from observed particles, waves, and turbulences.",

author = "Parks, \{G. K.\} and E. Lee and M. McCarthy and M. Goldstein and Fu, \{S. Y.\} and Cao, \{J. B.\} and P. Canu and N. Lin and M. Wilber and I. Dandouras and H. R{\'e}me and A. Fazakerley",

year = "2012",

month = feb,

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doi = "10.1103/PhysRevLett.108.061102",

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volume = "108",

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TY - JOUR

T1 - Entropy generation across earth's collisionless bow shock

AU - Parks, G. K.

AU - Lee, E.

AU - McCarthy, M.

AU - Goldstein, M.

AU - Fu, S. Y.

AU - Cao, J. B.

AU - Canu, P.

AU - Lin, N.

AU - Wilber, M.

AU - Dandouras, I.

AU - Réme, H.

AU - Fazakerley, A.

PY - 2012/2/9

Y1 - 2012/2/9

N2 - Earth's bow shock is a collisionless shock wave but entropy has never been directly measured across it. The plasma experiments on Cluster and Double Star measure 3D plasma distributions upstream and downstream of the bow shock allowing calculation of Boltzmann's entropy function H and his famous H theorem, dH/dt≤0. The collisionless Boltzmann (Vlasov) equation predicts that the total entropy does not change if the distribution function across the shock becomes nonthermal, but it allows changes in the entropy density. Here, we present the first direct measurements of entropy density changes across Earth's bow shock and show that the results generally support the model of the Vlasov analysis. These observations are a starting point for a more sophisticated analysis that includes 3D computer modeling of collisionless shocks with input from observed particles, waves, and turbulences.

AB - Earth's bow shock is a collisionless shock wave but entropy has never been directly measured across it. The plasma experiments on Cluster and Double Star measure 3D plasma distributions upstream and downstream of the bow shock allowing calculation of Boltzmann's entropy function H and his famous H theorem, dH/dt≤0. The collisionless Boltzmann (Vlasov) equation predicts that the total entropy does not change if the distribution function across the shock becomes nonthermal, but it allows changes in the entropy density. Here, we present the first direct measurements of entropy density changes across Earth's bow shock and show that the results generally support the model of the Vlasov analysis. These observations are a starting point for a more sophisticated analysis that includes 3D computer modeling of collisionless shocks with input from observed particles, waves, and turbulences.

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U2 - 10.1103/PhysRevLett.108.061102

DO - 10.1103/PhysRevLett.108.061102

M3 - Article

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VL - 108

JO - Physical Review Letters

JF - Physical Review Letters

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ER -

Entropy generation across earth's collisionless bow shock

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