Transition from Collisional to Collisionless Regimes in Interpenetrating Plasma Flows on the National Ignition Facility

J. S. Ross; D. P. Higginson; D. Ryutov; F. Fiuza; R. Hatarik; C. M. Huntington; D. H. Kalantar; A. Link; B. B. Pollock; B. A. Remington; H. G. Rinderknecht; G. F. Swadling; D. P. Turnbull; S. Weber; S. Wilks; D. H. Froula; M. J. Rosenberg; T. Morita; Y. Sakawa; H. Takabe; R. P. Drake; C. Kuranz; G. Gregori; J. Meinecke; M. C. Levy; M. Koenig; A. Spitkovsky; R. D. Petrasso; C. K. Li; H. Sio; B. Lahmann; A. B. Zylstra; H. S. Park

doi:10.1103/PhysRevLett.118.185003

Transition from Collisional to Collisionless Regimes in Interpenetrating Plasma Flows on the National Ignition Facility

J. S. Ross
, D. P. Higginson
, D. Ryutov
, F. Fiuza
, R. Hatarik
, C. M. Huntington
, D. H. Kalantar
, A. Link
, B. B. Pollock
, B. A. Remington
, H. G. Rinderknecht
, G. F. Swadling
, D. P. Turnbull
, S. Weber
, S. Wilks
, D. H. Froula
, M. J. Rosenberg
, T. Morita
, Y. Sakawa
, H. Takabe

R. P. Drake, C. Kuranz, G. Gregori, J. Meinecke, M. C. Levy, M. Koenig, A. Spitkovsky, R. D. Petrasso, C. K. Li, H. Sio, B. Lahmann, A. B. Zylstra, H. S. Park

Lawrence Livermore National Laboratory
Stanford Linear Accelerator Center
University of Rochester Laboratory for Laser Energetics
Kyushu University
Osaka University
University of Michigan, Ann Arbor
University of Oxford
Princeton University
Massachusetts Institute of Technology
MST-8, Los Alamos National Laboratory

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

Résumé

A study of the transition from collisional to collisionless plasma flows has been carried out at the National Ignition Facility using high Mach number (M>4) counterstreaming plasmas. In these experiments, CD-CD and CD-CH planar foils separated by 6-10 mm are irradiated with laser energies of 250 kJ per foil, generating ∼1000 km/s plasma flows. Varying the foil separation distance scales the ion density and average bulk velocity and, therefore, the ion-ion Coulomb mean free path, at the interaction region at the midplane. The characteristics of the flow interaction have been inferred from the neutrons and protons generated by deuteron-deuteron interactions and by x-ray emission from the hot, interpenetrating, and interacting plasmas. A localized burst of neutrons and bright x-ray emission near the midpoint of the counterstreaming flows was observed, suggesting strong heating and the initial stages of shock formation. As the separation of the CD-CH foils increases we observe enhanced neutron production compared to particle-in-cell simulations that include Coulomb collisions, but do not include collective collisionless plasma instabilities. The observed plasma heating and enhanced neutron production is consistent with the initial stages of collisionless shock formation, mediated by the Weibel filamentation instability.

langue originale	Anglais
Numéro d'article	185003
journal	Physical Review Letters
Volume	118
Numéro de publication	18
Les DOIs	https://doi.org/10.1103/PhysRevLett.118.185003
état	Publié - 5 mai 2017

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10.1103/PhysRevLett.118.185003

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Ross, J. S., Higginson, D. P., Ryutov, D., Fiuza, F., Hatarik, R., Huntington, C. M., Kalantar, D. H., Link, A., Pollock, B. B., Remington, B. A., Rinderknecht, H. G., Swadling, G. F., Turnbull, D. P., Weber, S., Wilks, S., Froula, D. H., Rosenberg, M. J., Morita, T., Sakawa, Y., ... Park, H. S. (2017). Transition from Collisional to Collisionless Regimes in Interpenetrating Plasma Flows on the National Ignition Facility. Physical Review Letters, 118(18), Article 185003. https://doi.org/10.1103/PhysRevLett.118.185003

@article{2361e794a1e14db2b90d6aa4751cf007,

title = "Transition from Collisional to Collisionless Regimes in Interpenetrating Plasma Flows on the National Ignition Facility",

abstract = "A study of the transition from collisional to collisionless plasma flows has been carried out at the National Ignition Facility using high Mach number (M>4) counterstreaming plasmas. In these experiments, CD-CD and CD-CH planar foils separated by 6-10 mm are irradiated with laser energies of 250 kJ per foil, generating ∼1000 km/s plasma flows. Varying the foil separation distance scales the ion density and average bulk velocity and, therefore, the ion-ion Coulomb mean free path, at the interaction region at the midplane. The characteristics of the flow interaction have been inferred from the neutrons and protons generated by deuteron-deuteron interactions and by x-ray emission from the hot, interpenetrating, and interacting plasmas. A localized burst of neutrons and bright x-ray emission near the midpoint of the counterstreaming flows was observed, suggesting strong heating and the initial stages of shock formation. As the separation of the CD-CH foils increases we observe enhanced neutron production compared to particle-in-cell simulations that include Coulomb collisions, but do not include collective collisionless plasma instabilities. The observed plasma heating and enhanced neutron production is consistent with the initial stages of collisionless shock formation, mediated by the Weibel filamentation instability.",

author = "Ross, \{J. S.\} and Higginson, \{D. P.\} and D. Ryutov and F. Fiuza and R. Hatarik and Huntington, \{C. M.\} and Kalantar, \{D. H.\} and A. Link and Pollock, \{B. B.\} and Remington, \{B. A.\} and Rinderknecht, \{H. G.\} and Swadling, \{G. F.\} and Turnbull, \{D. P.\} and S. Weber and S. Wilks and Froula, \{D. H.\} and Rosenberg, \{M. J.\} and T. Morita and Y. Sakawa and H. Takabe and Drake, \{R. P.\} and C. Kuranz and G. Gregori and J. Meinecke and Levy, \{M. C.\} and M. Koenig and A. Spitkovsky and Petrasso, \{R. D.\} and Li, \{C. K.\} and H. Sio and B. Lahmann and Zylstra, \{A. B.\} and Park, \{H. S.\}",

note = "Publisher Copyright: {\textcopyright} 2017 American Physical Society.",

year = "2017",

month = may,

day = "5",

doi = "10.1103/PhysRevLett.118.185003",

language = "English",

volume = "118",

journal = "Physical Review Letters",

issn = "0031-9007",

number = "18",

}

Ross, JS, Higginson, DP, Ryutov, D, Fiuza, F, Hatarik, R, Huntington, CM, Kalantar, DH, Link, A, Pollock, BB, Remington, BA, Rinderknecht, HG, Swadling, GF, Turnbull, DP, Weber, S, Wilks, S, Froula, DH, Rosenberg, MJ, Morita, T, Sakawa, Y, Takabe, H, Drake, RP, Kuranz, C, Gregori, G, Meinecke, J, Levy, MC, Koenig, M, Spitkovsky, A, Petrasso, RD, Li, CK, Sio, H, Lahmann, B, Zylstra, AB & Park, HS 2017, 'Transition from Collisional to Collisionless Regimes in Interpenetrating Plasma Flows on the National Ignition Facility', Physical Review Letters, VOL. 118, Numéro 18, 185003. https://doi.org/10.1103/PhysRevLett.118.185003

TY - JOUR

T1 - Transition from Collisional to Collisionless Regimes in Interpenetrating Plasma Flows on the National Ignition Facility

AU - Ross, J. S.

AU - Higginson, D. P.

AU - Ryutov, D.

AU - Fiuza, F.

AU - Hatarik, R.

AU - Huntington, C. M.

AU - Kalantar, D. H.

AU - Link, A.

AU - Pollock, B. B.

AU - Remington, B. A.

AU - Rinderknecht, H. G.

AU - Swadling, G. F.

AU - Turnbull, D. P.

AU - Weber, S.

AU - Wilks, S.

AU - Froula, D. H.

AU - Rosenberg, M. J.

AU - Morita, T.

AU - Sakawa, Y.

AU - Takabe, H.

AU - Drake, R. P.

AU - Kuranz, C.

AU - Gregori, G.

AU - Meinecke, J.

AU - Levy, M. C.

AU - Koenig, M.

AU - Spitkovsky, A.

AU - Petrasso, R. D.

AU - Li, C. K.

AU - Sio, H.

AU - Lahmann, B.

AU - Zylstra, A. B.

AU - Park, H. S.

PY - 2017/5/5

Y1 - 2017/5/5

N2 - A study of the transition from collisional to collisionless plasma flows has been carried out at the National Ignition Facility using high Mach number (M>4) counterstreaming plasmas. In these experiments, CD-CD and CD-CH planar foils separated by 6-10 mm are irradiated with laser energies of 250 kJ per foil, generating ∼1000 km/s plasma flows. Varying the foil separation distance scales the ion density and average bulk velocity and, therefore, the ion-ion Coulomb mean free path, at the interaction region at the midplane. The characteristics of the flow interaction have been inferred from the neutrons and protons generated by deuteron-deuteron interactions and by x-ray emission from the hot, interpenetrating, and interacting plasmas. A localized burst of neutrons and bright x-ray emission near the midpoint of the counterstreaming flows was observed, suggesting strong heating and the initial stages of shock formation. As the separation of the CD-CH foils increases we observe enhanced neutron production compared to particle-in-cell simulations that include Coulomb collisions, but do not include collective collisionless plasma instabilities. The observed plasma heating and enhanced neutron production is consistent with the initial stages of collisionless shock formation, mediated by the Weibel filamentation instability.

AB - A study of the transition from collisional to collisionless plasma flows has been carried out at the National Ignition Facility using high Mach number (M>4) counterstreaming plasmas. In these experiments, CD-CD and CD-CH planar foils separated by 6-10 mm are irradiated with laser energies of 250 kJ per foil, generating ∼1000 km/s plasma flows. Varying the foil separation distance scales the ion density and average bulk velocity and, therefore, the ion-ion Coulomb mean free path, at the interaction region at the midplane. The characteristics of the flow interaction have been inferred from the neutrons and protons generated by deuteron-deuteron interactions and by x-ray emission from the hot, interpenetrating, and interacting plasmas. A localized burst of neutrons and bright x-ray emission near the midpoint of the counterstreaming flows was observed, suggesting strong heating and the initial stages of shock formation. As the separation of the CD-CH foils increases we observe enhanced neutron production compared to particle-in-cell simulations that include Coulomb collisions, but do not include collective collisionless plasma instabilities. The observed plasma heating and enhanced neutron production is consistent with the initial stages of collisionless shock formation, mediated by the Weibel filamentation instability.

UR - https://www.scopus.com/pages/publications/85019024710

U2 - 10.1103/PhysRevLett.118.185003

DO - 10.1103/PhysRevLett.118.185003

M3 - Article

C2 - 28524679

AN - SCOPUS:85019024710

SN - 0031-9007

VL - 118

JO - Physical Review Letters

JF - Physical Review Letters

IS - 18

M1 - 185003

ER -

Transition from Collisional to Collisionless Regimes in Interpenetrating Plasma Flows on the National Ignition Facility

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