Observation of persistent species temperature separation in inertial confinement fusion mixtures

Observation of persistent species temperature separation in inertial confinement fusion mixtures

The influence of contaminants is one of the factors hindering self-sustained thermonuclear burn in inertial confinement fusion. Here, the authors present evidence, through simulations and experiments, that contaminants do not fully reach thermal equilibrium, and thus their amount is usually underest...

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Autores principales: Brian M. Haines, R. C. Shah, J. M. Smidt, B. J. Albright, T. Cardenas, M. R. Douglas, C. Forrest, V. Yu Glebov, M. A. Gunderson, C. E. Hamilton, K. C. Henderson, Y. Kim, M. N. Lee, T. J. Murphy, J. A. Oertel, R. E. Olson, B. M. Patterson, R. B. Randolph, D. W. Schmidt
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Lenguaje:EN
Publicado: Nature Portfolio 2020
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Acceso en línea:https://doaj.org/article/765c113ea35346f7a3d73f98917c0f53
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spelling oai:doaj.org-article:765c113ea35346f7a3d73f98917c0f532021-12-02T14:41:01ZObservation of persistent species temperature separation in inertial confinement fusion mixtures10.1038/s41467-020-14412-y2041-1723https://doaj.org/article/765c113ea35346f7a3d73f98917c0f532020-01-01T00:00:00Zhttps://doi.org/10.1038/s41467-020-14412-yhttps://doaj.org/toc/2041-1723The influence of contaminants is one of the factors hindering self-sustained thermonuclear burn in inertial confinement fusion. Here, the authors present evidence, through simulations and experiments, that contaminants do not fully reach thermal equilibrium, and thus their amount is usually underestimated.Brian M. HainesR. C. ShahJ. M. SmidtB. J. AlbrightT. CardenasM. R. DouglasC. ForrestV. Yu GlebovM. A. GundersonC. E. HamiltonK. C. HendersonY. KimM. N. LeeT. J. MurphyJ. A. OertelR. E. OlsonB. M. PattersonR. B. RandolphD. W. SchmidtNature PortfolioarticleScienceQENNature Communications, Vol 11, Iss 1, Pp 1-9 (2020)
institution DOAJ
collection DOAJ
language EN
topic Science
Q
spellingShingle Science
Q
Brian M. Haines
R. C. Shah
J. M. Smidt
B. J. Albright
T. Cardenas
M. R. Douglas
C. Forrest
V. Yu Glebov
M. A. Gunderson
C. E. Hamilton
K. C. Henderson
Y. Kim
M. N. Lee
T. J. Murphy
J. A. Oertel
R. E. Olson
B. M. Patterson
R. B. Randolph
D. W. Schmidt
Observation of persistent species temperature separation in inertial confinement fusion mixtures
description The influence of contaminants is one of the factors hindering self-sustained thermonuclear burn in inertial confinement fusion. Here, the authors present evidence, through simulations and experiments, that contaminants do not fully reach thermal equilibrium, and thus their amount is usually underestimated.
format article
author Brian M. Haines
R. C. Shah
J. M. Smidt
B. J. Albright
T. Cardenas
M. R. Douglas
C. Forrest
V. Yu Glebov
M. A. Gunderson
C. E. Hamilton
K. C. Henderson
Y. Kim
M. N. Lee
T. J. Murphy
J. A. Oertel
R. E. Olson
B. M. Patterson
R. B. Randolph
D. W. Schmidt
author_facet Brian M. Haines
R. C. Shah
J. M. Smidt
B. J. Albright
T. Cardenas
M. R. Douglas
C. Forrest
V. Yu Glebov
M. A. Gunderson
C. E. Hamilton
K. C. Henderson
Y. Kim
M. N. Lee
T. J. Murphy
J. A. Oertel
R. E. Olson
B. M. Patterson
R. B. Randolph
D. W. Schmidt
author_sort Brian M. Haines
title Observation of persistent species temperature separation in inertial confinement fusion mixtures
title_short Observation of persistent species temperature separation in inertial confinement fusion mixtures
title_full Observation of persistent species temperature separation in inertial confinement fusion mixtures
title_fullStr Observation of persistent species temperature separation in inertial confinement fusion mixtures
title_full_unstemmed Observation of persistent species temperature separation in inertial confinement fusion mixtures
title_sort observation of persistent species temperature separation in inertial confinement fusion mixtures
publisher Nature Portfolio
publishDate 2020
url https://doaj.org/article/765c113ea35346f7a3d73f98917c0f53
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