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W2085060766 abstract "By particle-in-cell simulation and analysis, we propose a plasma approach to generate a relativistic chirped pulse based on a laser-foil interaction. When two counterpropagating circularly polarized pulses interact with an overdense foil, the driving pulse (with a larger laser field amplitude) will accelerate the whole foil to form a double-layer structure, and the scattered pulse (with a smaller laser field amplitude) is reflected by this flying layer. Because of the Doppler effect and the varying velocity of the layer, the reflected pulse is up-shifted for frequency and chirped; thus, it could be compressed to a nearly single-cycled relativistic laser pulse with a short wavelength. Simulations show that a nearly single-cycled subfemtosecond relativistic pulse can be generated with a wavelength of $0.2text{ }text{ }ensuremath{mu}mathrm{m}$ after dispersion compensation." @default.
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W2085060766 date "2010-07-08" @default.
W2085060766 modified "2023-09-27" @default.
W2085060766 title "Relativistic Single-Cycled Short-Wavelength Laser Pulse Compressed from a Chirped Pulse Induced by Laser-Foil Interaction" @default.
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W2085060766 doi "https://doi.org/10.1103/physrevlett.105.025001" @default.
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