R K Li scite author profile

R K Li

3Publications

59Citation Statements Received

184Citation Statements Given

How they've been cited

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140

171

Affiliations

SLAC National Accelerator Laboratory

Publications

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Electron-lattice energy relaxation in laser-excited thin-film Au-insulator heterostructures studied by ultrafast MeV electron diffraction

Sokolowski‐Tinten

Shen

Zheng

et al. 2017

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We apply time-resolved MeV electron diffraction to study the electron-lattice energy relaxation in thin film Au-insulator heterostructures. Through precise measurements of the transient Debye-Waller-factor, the mean-square atomic displacement is directly determined, which allows to quantitatively follow the temporal evolution of the lattice temperature after short pulse laser excitation. Data obtained over an extended range of laser fluences reveal an increased relaxation rate when the film thickness is reduced or the Au-film is capped with an additional insulator top-layer. This behavior is attributed to a cross-interfacial coupling of excited electrons in the Au film to phonons in the adjacent insulator layer(s). Analysis of the data using the two-temperature-model taking explicitly into account the additional energy loss at the interface(s) allows to deduce the relative strength of the two relaxation channels.

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Thickness-dependent electron–lattice equilibration in laser-excited thin bismuth films

Sokolowski‐Tinten

Reid

et al. 2015

New J. Phys.

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Parallel-plate waveguides for terahertz-driven MeV electron bunch compression

Othman

Hoffmann²,

Kozina³

et al. 2019

Opt. Express

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We demonstrate the electromagnetic performance of waveguides for femtosecond electron beam bunch manipulation and compression with strong-field terahertz (THz) pulses. The compressor structure is a dispersion-free exponentially-tapered parallel-plate waveguide (PPWG) that can focus single-cycle THz pulses along one dimension. We show test results of the tapered PPWG structure using electro-optic sampling (EOS) at the interaction region with peak fields of at least 300 kV/cm given 0.9 µJ of incoming THz energy. We also present a modified shorted design of the tapered PPWG for better beam manipulation and reduced magnetic field as an alternative to a dual-feed approach. As an example, we demonstrate that with 5 µJ of THz energy, the PPWG compresses a 2.5 MeV electron bunch by a compression factor of more than 4 achieving a bunch length of about 18 fs.

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R K Li

Electron-lattice energy relaxation in laser-excited thin-film Au-insulator heterostructures studied by ultrafast MeV electron diffraction

Thickness-dependent electron–lattice equilibration in laser-excited thin bismuth films

Parallel-plate waveguides for terahertz-driven MeV electron bunch compression

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