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Geometry effects on energy selective focusing of laser-driven protons with open and closed hemisphere-cone targets.

Authors :
King, M
Higginson, A
McGuffey, C
Wilson, R
Schaumann, G
Hodge, T
Ohland, J B
Gales, S
Hill, M P
Pitt, S F
Spindloe, C
Danson, C N
Wei, M S
Beg, F N
Roth, M
Neely, D
Gray, R J
McKenna, P
Source :
Plasma Physics & Controlled Fusion. Jan2024, Vol. 66 Issue 1, p1-10. 10p.
Publication Year :
2024

Abstract

Relativistically intense laser light interacting with solid density targets can accelerate protons to multi-MeV energies via the target normal sheath acceleration process. The use of hollow hemisphere targets with a hollow conical region to focus protons of selected energies, for applications such as isochoric heating of matter and for the fast ignition approach to inertial confinement fusion, is explored for laser intensity ∼ 10 20 Wcm−2. Specifically, the effects of having the cone tip open or closed is investigated experimentally and via a programme of scaled particle-in-cell simulations. The open cone configuration is found to result in proton focusing in the energy range of 9 to 24 MeV, and produce an annular profile for higher energy components, up to 55 MeV, while the spatial distribution of lower energy components remains unchanged. By contrast, for the closed cone case, the focusing effect is diminished by the fields present on the inner wall of the cone tip. Simulations reveal that strong electrostatic and magnetic fields present on the inner surfaces of the target induce the focusing effect with the open cone, but also result in proton divergence in the case of the closed cone. Additionally, the simulations demonstrate the possibility to tailor the cone geometry to select the energy range over which the focusing occurs. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
07413335
Volume :
66
Issue :
1
Database :
Academic Search Index
Journal :
Plasma Physics & Controlled Fusion
Publication Type :
Academic Journal
Accession number :
173721122
Full Text :
https://doi.org/10.1088/1361-6587/ad0b34