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W2018120812 abstract "We examine the spatiotemporal compression of energetic femtosecond laser pules within short gas-filled fibers. The study is undertaken using an advanced nonlinear pulse propagation model based on a multimode generalized nonlinear Schrodinger equation that has been modified to include plasma effects. Plasma defocusing and linear propagation effects are shown to be the dominant processes within a highly dynamical mechanism that enables $text{100-fs}$ pulses to be compressed into the few-cycle regime after $<text{50}phantom{rule{4.pt}{0ex}}text{mm}$ of propagation. Once the mechanism has been introduced, parameter spaces are explored and compressor designs suitable for performing high-field experiments in situ are presented. We finish by showing how these designs may be extended to novel wavelengths and driving pulses delivered by state-of-the-art high-repetition-rate lasers." @default.
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W2018120812 date "2014-01-16" @default.
W2018120812 modified "2023-10-17" @default.
W2018120812 title "High-energy laser-pulse self-compression in short gas-filled fibers" @default.
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W2018120812 doi "https://doi.org/10.1103/physreva.89.013819" @default.
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