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Near-100 MeV protons via a laser-driven transparency-enhanced hybrid acceleration scheme

by Martin, P. , McKenna, P. , Wei, W. Q. , Green, J. S. , Yuan, X. H. , Clarke, R. J. , Williamson, S. D. R. , Mirfayzi, S. R. , Gray, R. J. , Borghesi, M. , King, M. , Wilson, R. , Neely, D. , Butler, N. M. H. , Dance, R. J. , Hawkes, S. J. , Capdessus, R. , Armstrong, C. , Higginson, A. , Kar, S.

in 639/766/1960/1135 / 639/766/1960/1137 / Acceleration / Electrostatic properties / Foils / Humanities and Social Sciences / Ion sources / Laser plasma interactions / Lasers / multidisciplinary / Plasma interactions / Protons / Radiation pressure / Science / Science (multidisciplinary)

2018

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Near-100 MeV protons via a laser-driven transparency-enhanced hybrid acceleration scheme

2018

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Near-100 MeV protons via a laser-driven transparency-enhanced hybrid acceleration scheme

2018

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Journal Article

Near-100 MeV protons via a laser-driven transparency-enhanced hybrid acceleration scheme

Martin, P.,

McKenna, P.,

Wei, W. Q.,

Green, J. S.,

Yuan, X. H.,

Clarke, R. J.,

Williamson, S. D. R.,

Mirfayzi, S. R.,

Gray, R. J.,

Borghesi, M.,

King, M.,

Wilson, R.,

Neely, D.,

Butler, N. M. H.,

Dance, R. J.,

Hawkes, S. J.,

Capdessus, R.,

Armstrong, C.,

Higginson, A.,

Kar, S.

2018

Overview

The range of potential applications of compact laser-plasma ion sources motivates the development of new acceleration schemes to increase achievable ion energies and conversion efficiencies. Whilst the evolving nature of laser-plasma interactions can limit the effectiveness of individual acceleration mechanisms, it can also enable the development of hybrid schemes, allowing additional degrees of control on the properties of the resulting ion beam. Here we report on an experimental demonstration of efficient proton acceleration to energies exceeding 94 MeV via a hybrid scheme of radiation pressure-sheath acceleration in an ultrathin foil irradiated by a linearly polarised laser pulse. This occurs via a double-peaked electrostatic field structure, which, at an optimum foil thickness, is significantly enhanced by relativistic transparency and an associated jet of super-thermal electrons. The range of parameters over which this hybrid scenario occurs is discussed and implications for ion acceleration driven by next-generation, multi-petawatt laser facilities are explored. It is a challenge to scale up laser-ion acceleration to higher ion energies. Here the authors demonstrate a hybrid acceleration scheme based on the relativistic induced transparency mechanism using linearly polarised laser interaction with foil targets and its future implication in using high power lasers.

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Publisher

Nature Publishing Group UK,Nature Publishing Group,Nature Portfolio

Subject

639/766/1960/1135

/ 639/766/1960/1137

/ Acceleration

/ Electrostatic properties

/ Foils

/ Humanities and Social Sciences

/ Ion sources