Simulation study for the spectral broadening and compression of a sub-TW laser pulse to a few-cycle duration in a dense gas target

D. K. Tran, Yao-Li Liu, S. W. Chou, S. H. Chen, M. W. Lin

研究成果: 雜誌貢獻期刊論文同行評審

摘要

Spectral broadening and compression of a sub-terawatt (TW) laser pulse can be achieved by tightly focusing the pulse into a thin, dense gas target; in this way, the excited plasma wave drives self-phase modulation in the pulse and causes a coupled spatial-temporal evolution of field envelope. Through three-dimensional particle-in-cell simulations, selected focal positions of incident pulse, gas species, and target peak densities are assigned to investigate the performance of pulse compression. When a 0.25-TW, 40-fs, 810-nm pulse is incident into a hydrogen target with a 120-μm wide Gaussian density profile and a peak density of 8 × 10 19 cm-3, a shortest output duration of ≈ 20 fs is acquired when the pulse is focused to a size of 4 μm with a position 50 μm before the density peak. Under the same rest of parameters, using a nitrogen target inhibits the pulse compression due to undesired ionization-induced defocusing. Moreover, using a high peak density of 1.2 × 10 20 cm-3 for hydrogen target allows the 0.25-TW pulse to be self-focused to a high intensity capable of exciting a strong plasma wave, which, in turn, modulates and compresses the pulse to ≈7 fs, along with a significantly broadened spectral bandwidth ≈200 nm. This widely expanded spectrum supports a transform-limited pulse duration ≈2.8 fs and allows the output pulse to reach a TW-level peak power when appropriate post-compression is applied.

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文章編號012305
期刊Physics of Plasmas
29
發行號1
DOIs
出版狀態已出版 - 1 1月 2022

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