Diagnostics for fast ignition science

A. G. MacPhee; K. U. Akli; F. N. Beg; C. D. Chen; H. Chen; R. Clarke; D. S. Hey; R. R. Freeman; A. J. Kemp; M. H. Key; J. A. King; S. Le Pape; A. Link; T. Y. Ma; H. Nakamura; D. T. Offermann; V. M. Ovchinnikov; P. K. Patel; T. W. Phillips; R. B. Stephens; R. Town; Y. Y. Tsui; M. S. Wei; L. D. Van Woerkom; A. J. MacKinnon

doi:10.1063/1.2978199

Diagnostics for fast ignition science

A. G. MacPhee
, K. U. Akli
, F. N. Beg
, C. D. Chen
, H. Chen
, R. Clarke
, D. S. Hey
, R. R. Freeman
, A. J. Kemp
, M. H. Key
, J. A. King
, S. Le Pape
, A. Link
, T. Y. Ma
, H. Nakamura
, D. T. Offermann
, V. M. Ovchinnikov
, P. K. Patel
, T. W. Phillips
, R. B. Stephens

R. Town, Y. Y. Tsui, M. S. Wei, L. D. Van Woerkom, A. J. MacKinnon

Lawrence Livermore National Laboratory
General Atomics
University of California, San Diego
CCLRC Rutherford Appleton Laboratory
The Ohio State University
Osaka University
University of Alberta

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

Résumé

The ignition concept for electron fast ignition inertial confinement fusion requires sufficient energy be transferred from an ∼20 ps laser pulse to the compressed fuel via approximately MeV electrons. We have assembled a suite of diagnostics to characterize such transfer, simultaneously fielding absolutely calibrated extreme ultraviolet multilayer imagers at 68 and 256 eV; spherically bent crystal imagers at 4.5 and 8 keV; multi-keV crystal spectrometers; MeV x-ray bremmstrahlung, electron and proton spectrometers (along the same line of sight), and a picosecond optical probe interferometer. These diagnostics allow careful measurement of energy transport and deposition during and following the laser-plasma interactions at extremely high intensities in both planar and conical targets. Together with accurate on-shot laser focal spot and prepulse characterization, these measurements are yielding new insights into energy coupling and are providing critical data for validating numerical particle-in-cell (PIC) and hybrid PIC simulation codes in an area crucial for fast ignition and other applications. Novel aspects of these diagnostics and how they are combined to extract quantitative data on ultrahigh intensity laser-plasma interactions are discussed.

langue originale	Anglais
Numéro d'article	10F302
journal	Review of Scientific Instruments
Volume	79
Numéro de publication	10
Les DOIs	https://doi.org/10.1063/1.2978199
état	Publié - 10 nov. 2008
Modification externe	Oui

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10.1063/1.2978199

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MacPhee, A. G., Akli, K. U., Beg, F. N., Chen, C. D., Chen, H., Clarke, R., Hey, D. S., Freeman, R. R., Kemp, A. J., Key, M. H., King, J. A., Le Pape, S., Link, A., Ma, T. Y., Nakamura, H., Offermann, D. T., Ovchinnikov, V. M., Patel, P. K., Phillips, T. W., ... MacKinnon, A. J. (2008). Diagnostics for fast ignition science. Review of Scientific Instruments, 79(10), Article 10F302. https://doi.org/10.1063/1.2978199

@article{ceef21e766994ddbb149cae29aa19742,

title = "Diagnostics for fast ignition science",

abstract = "The ignition concept for electron fast ignition inertial confinement fusion requires sufficient energy be transferred from an ∼20 ps laser pulse to the compressed fuel via approximately MeV electrons. We have assembled a suite of diagnostics to characterize such transfer, simultaneously fielding absolutely calibrated extreme ultraviolet multilayer imagers at 68 and 256 eV; spherically bent crystal imagers at 4.5 and 8 keV; multi-keV crystal spectrometers; MeV x-ray bremmstrahlung, electron and proton spectrometers (along the same line of sight), and a picosecond optical probe interferometer. These diagnostics allow careful measurement of energy transport and deposition during and following the laser-plasma interactions at extremely high intensities in both planar and conical targets. Together with accurate on-shot laser focal spot and prepulse characterization, these measurements are yielding new insights into energy coupling and are providing critical data for validating numerical particle-in-cell (PIC) and hybrid PIC simulation codes in an area crucial for fast ignition and other applications. Novel aspects of these diagnostics and how they are combined to extract quantitative data on ultrahigh intensity laser-plasma interactions are discussed.",

author = "MacPhee, \{A. G.\} and Akli, \{K. U.\} and Beg, \{F. N.\} and Chen, \{C. D.\} and H. Chen and R. Clarke and Hey, \{D. S.\} and Freeman, \{R. R.\} and Kemp, \{A. J.\} and Key, \{M. H.\} and King, \{J. A.\} and \{Le Pape\}, S. and A. Link and Ma, \{T. Y.\} and H. Nakamura and Offermann, \{D. T.\} and Ovchinnikov, \{V. M.\} and Patel, \{P. K.\} and Phillips, \{T. W.\} and Stephens, \{R. B.\} and R. Town and Tsui, \{Y. Y.\} and Wei, \{M. S.\} and \{Van Woerkom\}, \{L. D.\} and MacKinnon, \{A. J.\}",

year = "2008",

month = nov,

day = "10",

doi = "10.1063/1.2978199",

language = "English",

volume = "79",

journal = "Review of Scientific Instruments",

issn = "0034-6748",

number = "10",

}

MacPhee, AG, Akli, KU, Beg, FN, Chen, CD, Chen, H, Clarke, R, Hey, DS, Freeman, RR, Kemp, AJ, Key, MH, King, JA, Le Pape, S, Link, A, Ma, TY, Nakamura, H, Offermann, DT, Ovchinnikov, VM, Patel, PK, Phillips, TW, Stephens, RB, Town, R, Tsui, YY, Wei, MS, Van Woerkom, LD & MacKinnon, AJ 2008, 'Diagnostics for fast ignition science', Review of Scientific Instruments, VOL. 79, Numéro 10, 10F302. https://doi.org/10.1063/1.2978199

TY - JOUR

T1 - Diagnostics for fast ignition science

AU - MacPhee, A. G.

AU - Akli, K. U.

AU - Beg, F. N.

AU - Chen, C. D.

AU - Chen, H.

AU - Clarke, R.

AU - Hey, D. S.

AU - Freeman, R. R.

AU - Kemp, A. J.

AU - Key, M. H.

AU - King, J. A.

AU - Le Pape, S.

AU - Link, A.

AU - Ma, T. Y.

AU - Nakamura, H.

AU - Offermann, D. T.

AU - Ovchinnikov, V. M.

AU - Patel, P. K.

AU - Phillips, T. W.

AU - Stephens, R. B.

AU - Town, R.

AU - Tsui, Y. Y.

AU - Wei, M. S.

AU - Van Woerkom, L. D.

AU - MacKinnon, A. J.

PY - 2008/11/10

Y1 - 2008/11/10

N2 - The ignition concept for electron fast ignition inertial confinement fusion requires sufficient energy be transferred from an ∼20 ps laser pulse to the compressed fuel via approximately MeV electrons. We have assembled a suite of diagnostics to characterize such transfer, simultaneously fielding absolutely calibrated extreme ultraviolet multilayer imagers at 68 and 256 eV; spherically bent crystal imagers at 4.5 and 8 keV; multi-keV crystal spectrometers; MeV x-ray bremmstrahlung, electron and proton spectrometers (along the same line of sight), and a picosecond optical probe interferometer. These diagnostics allow careful measurement of energy transport and deposition during and following the laser-plasma interactions at extremely high intensities in both planar and conical targets. Together with accurate on-shot laser focal spot and prepulse characterization, these measurements are yielding new insights into energy coupling and are providing critical data for validating numerical particle-in-cell (PIC) and hybrid PIC simulation codes in an area crucial for fast ignition and other applications. Novel aspects of these diagnostics and how they are combined to extract quantitative data on ultrahigh intensity laser-plasma interactions are discussed.

AB - The ignition concept for electron fast ignition inertial confinement fusion requires sufficient energy be transferred from an ∼20 ps laser pulse to the compressed fuel via approximately MeV electrons. We have assembled a suite of diagnostics to characterize such transfer, simultaneously fielding absolutely calibrated extreme ultraviolet multilayer imagers at 68 and 256 eV; spherically bent crystal imagers at 4.5 and 8 keV; multi-keV crystal spectrometers; MeV x-ray bremmstrahlung, electron and proton spectrometers (along the same line of sight), and a picosecond optical probe interferometer. These diagnostics allow careful measurement of energy transport and deposition during and following the laser-plasma interactions at extremely high intensities in both planar and conical targets. Together with accurate on-shot laser focal spot and prepulse characterization, these measurements are yielding new insights into energy coupling and are providing critical data for validating numerical particle-in-cell (PIC) and hybrid PIC simulation codes in an area crucial for fast ignition and other applications. Novel aspects of these diagnostics and how they are combined to extract quantitative data on ultrahigh intensity laser-plasma interactions are discussed.

UR - https://www.scopus.com/pages/publications/55349114409

U2 - 10.1063/1.2978199

DO - 10.1063/1.2978199

M3 - Article

AN - SCOPUS:55349114409

SN - 0034-6748

VL - 79

JO - Review of Scientific Instruments

JF - Review of Scientific Instruments

IS - 10

M1 - 10F302

ER -

Diagnostics for fast ignition science

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