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double-layer solid target

Laser and Particle Beams (1)

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Quasi-monoenergetic proton beam generation from a double-layer solid target using an intense circularly polarized laser
J.H. Bin, A.L. Lei, X.Q. Yang, L.G. Huang, M.Y. Yu, Wei Yu, K.A. Tanaka
Journal:

Laser and Particle Beams / Volume 27 / Issue 3 / September 2009

Published online by Cambridge University Press:

17 July 2009, pp. 485-490
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Monoenegetic ion beam generation from circularly polarized laser-pulse interaction with a double-layer target is considered. The front layer consists of heavy-ion plasma, and the rear layer is a small thin coating of light-ion plasma. Particle-in-cell simulation shows that the multi-dimensional effects in the ion radiation pressure acceleration are avoided and a highly monoenergetic light-ion beam can be produced. Our simulations reveal that the charge-mass ratio of heavy ions in the front layer and the thicknesses of both layers can strongly affect the proton energy spectra.

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Quasi-monoenergetic proton beam generation from a double-layer solid target using an intense circularly polarized laser

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Quasi-monoenergetic proton beam generation from a double-layer solid target using an intense circularly polarized laser