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Whole-beam self-focusing in fusion-relevant plasma
Whole-beam self-focusing in fusion-relevant plasma
by Fyrth, J. , Aboushelbaya, R. , Luis, J. , Brown, C. , Norreys, P. A. , Sircombe, N. , Ramsay, M. , Hill, M. P. , Allan, P. , Floyd, E. , Hobbs, L. , Skidmore, J. , Mayr, M. W. , Paddock, R. , James, S. , Ceurvorst, L. , Wang, R. H. W. , Savin, A. F. , Spiers, B. T. , Ratan, N.
2021
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Whole-beam self-focusing in fusion-relevant plasma
by Fyrth, J. , Aboushelbaya, R. , Luis, J. , Brown, C. , Norreys, P. A. , Sircombe, N. , Ramsay, M. , Hill, M. P. , Allan, P. , Floyd, E. , Hobbs, L. , Skidmore, J. , Mayr, M. W. , Paddock, R. , James, S. , Ceurvorst, L. , Wang, R. H. W. , Savin, A. F. , Spiers, B. T. , Ratan, N.
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2021
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Whole-beam self-focusing in fusion-relevant plasma
Whole-beam self-focusing in fusion-relevant plasma
by Fyrth, J. , Aboushelbaya, R. , Luis, J. , Brown, C. , Norreys, P. A. , Sircombe, N. , Ramsay, M. , Hill, M. P. , Allan, P. , Floyd, E. , Hobbs, L. , Skidmore, J. , Mayr, M. W. , Paddock, R. , James, S. , Ceurvorst, L. , Wang, R. H. W. , Savin, A. F. , Spiers, B. T. , Ratan, N.
2021

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Whole-beam self-focusing in fusion-relevant plasma
Whole-beam self-focusing in fusion-relevant plasma
Journal Article

Whole-beam self-focusing in fusion-relevant plasma

Fyrth, J.,
Aboushelbaya, R.,
Luis, J.,
Brown, C.,
Norreys, P. A.,
Sircombe, N.,
Ramsay, M.,
Hill, M. P.,
Allan, P.,
Floyd, E.,
Hobbs, L.,
Skidmore, J.,
Mayr, M. W.,
Paddock, R.,
James, S.,
Ceurvorst, L.,
Wang, R. H. W.,
Savin, A. F.,
Spiers, B. T.,
Ratan, N.
2021
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Overview
Fast ignition inertial confinement fusion requires the production of a low-density channel in plasma with density scale-lengths of several hundred microns. The channel assists in the propagation of an ultraintense laser pulse used to generate fast electrons which form a hot spot on the side of precompressed fusion fuel. We present a systematic characterization of an expanding laser-produced plasma using optical interferometry, benchmarked against three-dimensional hydrodynamic simulations. Magnetic fields associated with channel formation are probed using proton radiography, and compared to magnetic field structures generated in full-scale particle-in-cell simulations. We present observations of long-lived, straight channels produced by the Habara–Kodama–Tanaka whole-beam self-focusing mechanism, overcoming a critical barrier on the path to realizing fast ignition. This article is part of a discussion meeting issue ‘Prospects for high gain inertial fusion energy (part 2)’.
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Royal Society

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