Plasma stopping-power measurements reveal transition from non-degenerate to degenerate plasmas

A. C. Hayes; M. E. Gooden; E. Henry; Gerard Jungman; J. B. Wilhelmy; R. S. Rundberg; C. Yeamans; G. Kyrala; C. Cerjan; D. L. Danielson; Jérôme Daligault; C. Wilburn; P. Volegov; C. Wilde; S. Batha; T. Bredeweg; J. L. Kline; G. P. Grim; E. P. Hartouni; D. Shaughnessy; C. Velsko; W. S. Cassata; K. Moody; L. F. Berzak Hopkins; D. Hinkel; T. Döppner; S. Le Pape; F. Graziani; D. A. Callahan; O. A. Hurricane; D. Schneider

doi:10.1038/s41567-020-0790-3

Plasma stopping-power measurements reveal transition from non-degenerate to degenerate plasmas

A. C. Hayes
, M. E. Gooden
, E. Henry
, Gerard Jungman
, J. B. Wilhelmy
, R. S. Rundberg
, C. Yeamans
, G. Kyrala
, C. Cerjan
, D. L. Danielson
, Jérôme Daligault
, C. Wilburn
, P. Volegov
, C. Wilde
, S. Batha
, T. Bredeweg
, J. L. Kline
, G. P. Grim
, E. P. Hartouni
, D. Shaughnessy

C. Velsko, W. S. Cassata, K. Moody, L. F. Berzak Hopkins, D. Hinkel, T. Döppner, S. Le Pape, F. Graziani, D. A. Callahan, O. A. Hurricane, D. Schneider

MST-8, Los Alamos National Laboratory
Lawrence Livermore National Laboratory

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

Résumé

Physically realized electron gas systems usually reside in either the quantum non-degenerate or fully degenerate limit, where the average de Broglie wavelength of the thermal electrons becomes comparable with the interparticle distance between electrons. A few systems, such as young brown dwarfs and the cold dense fuels created in imploded cryogenic capsules at the National Ignition Facility, lie between these two limits and are partially degenerate. The National Ignition Facility has the unique capability of varying the electron quantum degeneracy by adjusting the laser drive used to implode the capsules. This allows experimental studies of the effects of the degeneracy level on plasma transport properties. By measuring rare nuclear reactions in these cold dense fuels, we show that the electron stopping power, which is the rate of energy loss per unit distance travelled by a charged particle, changes with increasing electron density. We observe a quantum-induced shift in the peak of the stopping power using diagnostics that measure above and below this peak. The observed changes in the stopping power are shown to be unique to the transition region between non-degenerate and degenerate plasmas. Our results support the screening models applied to partially degenerate astrophysical systems such as young brown dwarfs.

langue originale	Anglais
Pages (de - à)	432-437
Nombre de pages	6
journal	Nature Physics
Volume	16
Numéro de publication	4
Les DOIs	https://doi.org/10.1038/s41567-020-0790-3
état	Publié - 1 avr. 2020
Modification externe	Oui

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10.1038/s41567-020-0790-3

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Hayes, A. C., Gooden, M. E., Henry, E., Jungman, G., Wilhelmy, J. B., Rundberg, R. S., Yeamans, C., Kyrala, G., Cerjan, C., Danielson, D. L., Daligault, J., Wilburn, C., Volegov, P., Wilde, C., Batha, S., Bredeweg, T., Kline, J. L., Grim, G. P., Hartouni, E. P., ... Schneider, D. (2020). Plasma stopping-power measurements reveal transition from non-degenerate to degenerate plasmas. Nature Physics, 16(4), 432-437. https://doi.org/10.1038/s41567-020-0790-3

@article{22d411426f684c47aba16c73d0b4512f,

title = "Plasma stopping-power measurements reveal transition from non-degenerate to degenerate plasmas",

abstract = "Physically realized electron gas systems usually reside in either the quantum non-degenerate or fully degenerate limit, where the average de Broglie wavelength of the thermal electrons becomes comparable with the interparticle distance between electrons. A few systems, such as young brown dwarfs and the cold dense fuels created in imploded cryogenic capsules at the National Ignition Facility, lie between these two limits and are partially degenerate. The National Ignition Facility has the unique capability of varying the electron quantum degeneracy by adjusting the laser drive used to implode the capsules. This allows experimental studies of the effects of the degeneracy level on plasma transport properties. By measuring rare nuclear reactions in these cold dense fuels, we show that the electron stopping power, which is the rate of energy loss per unit distance travelled by a charged particle, changes with increasing electron density. We observe a quantum-induced shift in the peak of the stopping power using diagnostics that measure above and below this peak. The observed changes in the stopping power are shown to be unique to the transition region between non-degenerate and degenerate plasmas. Our results support the screening models applied to partially degenerate astrophysical systems such as young brown dwarfs.",

author = "Hayes, \{A. C.\} and Gooden, \{M. E.\} and E. Henry and Gerard Jungman and Wilhelmy, \{J. B.\} and Rundberg, \{R. S.\} and C. Yeamans and G. Kyrala and C. Cerjan and Danielson, \{D. L.\} and J{\'e}r{\^o}me Daligault and C. Wilburn and P. Volegov and C. Wilde and S. Batha and T. Bredeweg and Kline, \{J. L.\} and Grim, \{G. P.\} and Hartouni, \{E. P.\} and D. Shaughnessy and C. Velsko and Cassata, \{W. S.\} and K. Moody and \{Berzak Hopkins\}, \{L. F.\} and D. Hinkel and T. D{\"o}ppner and \{Le Pape\}, S. and F. Graziani and Callahan, \{D. A.\} and Hurricane, \{O. A.\} and D. Schneider",

note = "Publisher Copyright: {\textcopyright} 2020, The Author(s), under exclusive licence to Springer Nature Limited.",

year = "2020",

month = apr,

day = "1",

doi = "10.1038/s41567-020-0790-3",

language = "English",

volume = "16",

pages = "432--437",

journal = "Nature Physics",

issn = "1745-2473",

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Hayes, AC, Gooden, ME, Henry, E, Jungman, G, Wilhelmy, JB, Rundberg, RS, Yeamans, C, Kyrala, G, Cerjan, C, Danielson, DL, Daligault, J, Wilburn, C, Volegov, P, Wilde, C, Batha, S, Bredeweg, T, Kline, JL, Grim, GP, Hartouni, EP, Shaughnessy, D, Velsko, C, Cassata, WS, Moody, K, Berzak Hopkins, LF, Hinkel, D, Döppner, T, Le Pape, S, Graziani, F, Callahan, DA, Hurricane, OA & Schneider, D 2020, 'Plasma stopping-power measurements reveal transition from non-degenerate to degenerate plasmas', Nature Physics, VOL. 16, Numéro 4, p. 432-437. https://doi.org/10.1038/s41567-020-0790-3

TY - JOUR

T1 - Plasma stopping-power measurements reveal transition from non-degenerate to degenerate plasmas

AU - Hayes, A. C.

AU - Gooden, M. E.

AU - Henry, E.

AU - Jungman, Gerard

AU - Wilhelmy, J. B.

AU - Rundberg, R. S.

AU - Yeamans, C.

AU - Kyrala, G.

AU - Cerjan, C.

AU - Danielson, D. L.

AU - Daligault, Jérôme

AU - Wilburn, C.

AU - Volegov, P.

AU - Wilde, C.

AU - Batha, S.

AU - Bredeweg, T.

AU - Kline, J. L.

AU - Grim, G. P.

AU - Hartouni, E. P.

AU - Shaughnessy, D.

AU - Velsko, C.

AU - Cassata, W. S.

AU - Moody, K.

AU - Berzak Hopkins, L. F.

AU - Hinkel, D.

AU - Döppner, T.

AU - Le Pape, S.

AU - Graziani, F.

AU - Callahan, D. A.

AU - Hurricane, O. A.

AU - Schneider, D.

PY - 2020/4/1

Y1 - 2020/4/1

N2 - Physically realized electron gas systems usually reside in either the quantum non-degenerate or fully degenerate limit, where the average de Broglie wavelength of the thermal electrons becomes comparable with the interparticle distance between electrons. A few systems, such as young brown dwarfs and the cold dense fuels created in imploded cryogenic capsules at the National Ignition Facility, lie between these two limits and are partially degenerate. The National Ignition Facility has the unique capability of varying the electron quantum degeneracy by adjusting the laser drive used to implode the capsules. This allows experimental studies of the effects of the degeneracy level on plasma transport properties. By measuring rare nuclear reactions in these cold dense fuels, we show that the electron stopping power, which is the rate of energy loss per unit distance travelled by a charged particle, changes with increasing electron density. We observe a quantum-induced shift in the peak of the stopping power using diagnostics that measure above and below this peak. The observed changes in the stopping power are shown to be unique to the transition region between non-degenerate and degenerate plasmas. Our results support the screening models applied to partially degenerate astrophysical systems such as young brown dwarfs.

AB - Physically realized electron gas systems usually reside in either the quantum non-degenerate or fully degenerate limit, where the average de Broglie wavelength of the thermal electrons becomes comparable with the interparticle distance between electrons. A few systems, such as young brown dwarfs and the cold dense fuels created in imploded cryogenic capsules at the National Ignition Facility, lie between these two limits and are partially degenerate. The National Ignition Facility has the unique capability of varying the electron quantum degeneracy by adjusting the laser drive used to implode the capsules. This allows experimental studies of the effects of the degeneracy level on plasma transport properties. By measuring rare nuclear reactions in these cold dense fuels, we show that the electron stopping power, which is the rate of energy loss per unit distance travelled by a charged particle, changes with increasing electron density. We observe a quantum-induced shift in the peak of the stopping power using diagnostics that measure above and below this peak. The observed changes in the stopping power are shown to be unique to the transition region between non-degenerate and degenerate plasmas. Our results support the screening models applied to partially degenerate astrophysical systems such as young brown dwarfs.

U2 - 10.1038/s41567-020-0790-3

DO - 10.1038/s41567-020-0790-3

M3 - Article

AN - SCOPUS:85081684652

SN - 1745-2473

VL - 16

SP - 432

EP - 437

JO - Nature Physics

JF - Nature Physics

IS - 4

ER -

Plasma stopping-power measurements reveal transition from non-degenerate to degenerate plasmas

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