Direct-drive implosion physics: Results from OMEGA and the National Ignition Facility

P. B. Rauha; V. N. Goncharov; M. Hohenberger; T. C. Sangster; R. Betti; R. S. Craxlon; D. H. Edgell; R. Epstein; D. H. Froula; J. A. Marozas; F. J. Marshall; R. L. McCrory; P. W. McKenty; D. D. Meyerhofer; D. T. Michel; S. X. Hu; W. Seka; A. Sbvydky; S. Skupsky; J. A. Frenje; M. Gatu-Jobnson; R. D. Petrasso; T. Ma; S. Le Pape; A. J. Maekinnon

Direct-drive implosion physics: Results from OMEGA and the National Ignition Facility

P. B. Rauha
, V. N. Goncharov
, M. Hohenberger
, T. C. Sangster
, R. Betti
, R. S. Craxlon
, D. H. Edgell
, R. Epstein
, D. H. Froula
, J. A. Marozas
, F. J. Marshall
, R. L. McCrory
, P. W. McKenty
, D. D. Meyerhofer
, D. T. Michel
, S. X. Hu
, W. Seka
, A. Sbvydky
, S. Skupsky
, J. A. Frenje

M. Gatu-Jobnson, R. D. Petrasso, T. Ma, S. Le Pape, A. J. Maekinnon

Research output: Chapter in Book/Report/Conference proceeding › Chapter › peer-review

Abstract

Direct-drive implosion experiments from both OMEGA and the National Ignition Facility (NIF) are critical to gain confidence in ignition predictions on the NIF. Adequate performance of hydrodynamically scaled 1.8-MJ ignition designs must be obtained on OMEGA at 26 kJ. Implosions on the NIF must be used to identify and mitigate the effect of laser-plasma interactions (LPI's) on hydrodynamic parameters at the NIF scale. Results from spherically driven OMEGA cryogenic implosion experiments are described. Mitigation of nonuniformity sources and cross-beam energy transfer (SVYeT) is important for improving target performance on OMEGA, Initial polar-driven implosion experiments on the NIF have provided valuable measurements of trajectory and symmetry. Simulations that include the effect of SVYeT more closely reproduce the observed velocity.

Original language	English
Title of host publication	Edward Teller Lectures
Subtitle of host publication	Lasers and Inertial Fusion Energy (Second Edition)
Publisher	Imperial College Press
Pages	457-462
Number of pages	6
ISBN (Electronic)	9781911299660
ISBN (Print)	9781911299653
Publication status	Published - 8 Oct 2016
Externally published	Yes

Cite this

Rauha, P. B., Goncharov, V. N., Hohenberger, M., Sangster, T. C., Betti, R., Craxlon, R. S., Edgell, D. H., Epstein, R., Froula, D. H., Marozas, J. A., Marshall, F. J., McCrory, R. L., McKenty, P. W., Meyerhofer, D. D., Michel, D. T., Hu, S. X., Seka, W., Sbvydky, A., Skupsky, S., ... Maekinnon, A. J. (2016). Direct-drive implosion physics: Results from OMEGA and the National Ignition Facility. In Edward Teller Lectures: Lasers and Inertial Fusion Energy (Second Edition) (pp. 457-462). Imperial College Press.

@inbook{e0cc6df30570441f87109609bd035dce,

title = "Direct-drive implosion physics: Results from OMEGA and the National Ignition Facility",

abstract = "Direct-drive implosion experiments from both OMEGA and the National Ignition Facility (NIF) are critical to gain confidence in ignition predictions on the NIF. Adequate performance of hydrodynamically scaled 1.8-MJ ignition designs must be obtained on OMEGA at 26 kJ. Implosions on the NIF must be used to identify and mitigate the effect of laser-plasma interactions (LPI's) on hydrodynamic parameters at the NIF scale. Results from spherically driven OMEGA cryogenic implosion experiments are described. Mitigation of nonuniformity sources and cross-beam energy transfer (SVYeT) is important for improving target performance on OMEGA, Initial polar-driven implosion experiments on the NIF have provided valuable measurements of trajectory and symmetry. Simulations that include the effect of SVYeT more closely reproduce the observed velocity.",

author = "Rauha, \{P. B.\} and Goncharov, \{V. N.\} and M. Hohenberger and Sangster, \{T. C.\} and R. Betti and Craxlon, \{R. S.\} and Edgell, \{D. H.\} and R. Epstein and Froula, \{D. H.\} and Marozas, \{J. A.\} and Marshall, \{F. J.\} and McCrory, \{R. L.\} and McKenty, \{P. W.\} and Meyerhofer, \{D. D.\} and Michel, \{D. T.\} and Hu, \{S. X.\} and W. Seka and A. Sbvydky and S. Skupsky and Frenje, \{J. A.\} and M. Gatu-Jobnson and Petrasso, \{R. D.\} and T. Ma and Pape, \{S. Le\} and Maekinnon, \{A. J.\}",

note = "Publisher Copyright: {\textcopyright} 2016 by Imperial College Press.",

year = "2016",

month = oct,

day = "8",

language = "English",

isbn = "9781911299653",

pages = "457--462",

booktitle = "Edward Teller Lectures",

publisher = "Imperial College Press",

}

Rauha, PB, Goncharov, VN, Hohenberger, M, Sangster, TC, Betti, R, Craxlon, RS, Edgell, DH, Epstein, R, Froula, DH, Marozas, JA, Marshall, FJ, McCrory, RL, McKenty, PW, Meyerhofer, DD, Michel, DT, Hu, SX, Seka, W, Sbvydky, A, Skupsky, S, Frenje, JA, Gatu-Jobnson, M, Petrasso, RD, Ma, T, Pape, SL & Maekinnon, AJ 2016, Direct-drive implosion physics: Results from OMEGA and the National Ignition Facility. in Edward Teller Lectures: Lasers and Inertial Fusion Energy (Second Edition). Imperial College Press, pp. 457-462.

TY - CHAP

T1 - Direct-drive implosion physics

T2 - Results from OMEGA and the National Ignition Facility

AU - Rauha, P. B.

AU - Goncharov, V. N.

AU - Hohenberger, M.

AU - Sangster, T. C.

AU - Betti, R.

AU - Craxlon, R. S.

AU - Edgell, D. H.

AU - Epstein, R.

AU - Froula, D. H.

AU - Marozas, J. A.

AU - Marshall, F. J.

AU - McCrory, R. L.

AU - McKenty, P. W.

AU - Meyerhofer, D. D.

AU - Michel, D. T.

AU - Hu, S. X.

AU - Seka, W.

AU - Sbvydky, A.

AU - Skupsky, S.

AU - Frenje, J. A.

AU - Gatu-Jobnson, M.

AU - Petrasso, R. D.

AU - Ma, T.

AU - Pape, S. Le

AU - Maekinnon, A. J.

PY - 2016/10/8

Y1 - 2016/10/8

N2 - Direct-drive implosion experiments from both OMEGA and the National Ignition Facility (NIF) are critical to gain confidence in ignition predictions on the NIF. Adequate performance of hydrodynamically scaled 1.8-MJ ignition designs must be obtained on OMEGA at 26 kJ. Implosions on the NIF must be used to identify and mitigate the effect of laser-plasma interactions (LPI's) on hydrodynamic parameters at the NIF scale. Results from spherically driven OMEGA cryogenic implosion experiments are described. Mitigation of nonuniformity sources and cross-beam energy transfer (SVYeT) is important for improving target performance on OMEGA, Initial polar-driven implosion experiments on the NIF have provided valuable measurements of trajectory and symmetry. Simulations that include the effect of SVYeT more closely reproduce the observed velocity.

AB - Direct-drive implosion experiments from both OMEGA and the National Ignition Facility (NIF) are critical to gain confidence in ignition predictions on the NIF. Adequate performance of hydrodynamically scaled 1.8-MJ ignition designs must be obtained on OMEGA at 26 kJ. Implosions on the NIF must be used to identify and mitigate the effect of laser-plasma interactions (LPI's) on hydrodynamic parameters at the NIF scale. Results from spherically driven OMEGA cryogenic implosion experiments are described. Mitigation of nonuniformity sources and cross-beam energy transfer (SVYeT) is important for improving target performance on OMEGA, Initial polar-driven implosion experiments on the NIF have provided valuable measurements of trajectory and symmetry. Simulations that include the effect of SVYeT more closely reproduce the observed velocity.

UR - https://www.scopus.com/pages/publications/85126158284

M3 - Chapter

AN - SCOPUS:85126158284

SN - 9781911299653

SP - 457

EP - 462

BT - Edward Teller Lectures

PB - Imperial College Press

ER -

Direct-drive implosion physics: Results from OMEGA and the National Ignition Facility

Abstract

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