Catherine Burcklen scite author profile

Catherine Burcklen

2Publications

66Citation Statements Received

140Citation Statements Given

How they've been cited

How they cite others

137

Affiliations

Lawrence Livermore National Laboratory, Laboratoire Charles Fabry, Institut d’Optique Graduate School

Publications

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Ultrafast multi-cycle terahertz measurements of the electrical conductivity in strongly excited solids

et al. 2021

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Key insights in materials at extreme temperatures and pressures can be gained by accurate measurements that determine the electrical conductivity. Free-electron laser pulses can ionize and excite matter out of equilibrium on femtosecond time scales, modifying the electronic and ionic structures and enhancing electronic scattering properties. The transient evolution of the conductivity manifests the energy coupling from high temperature electrons to low temperature ions. Here we combine accelerator-based, high-brightness multi-cycle terahertz radiation with a single-shot electro-optic sampling technique to probe the evolution of DC electrical conductivity using terahertz transmission measurements on sub-picosecond time scales with a multi-undulator free electron laser. Our results allow the direct determination of the electron-electron and electron-ion scattering frequencies that are the major contributors of the electrical resistivity.

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Cr/B4C multilayer mirrors: Study of interfaces and X-ray reflectance

Burcklen

Soufli

Dennetière

et al. 2016

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We present an experimental study of the effect of layer interfaces on the x-ray reflectance in Cr/B 4 C multilayer interference coatings with layer thicknesses ranging from 0.7 nm to 5.4 nm. The multilayers were deposited by magnetron sputtering and by ion beam sputtering. Grazing incidence x-ray reflectometry, soft x-ray reflectometry, and transmission electron microscopy reveal asymmetric multilayer structures with a larger B 4 Con -Cr interface, which we modeled with a 1-1.5 nm thick interfacial layer. Reflectance measurements in the vicinity of the Cr L 2,3 absorption edge demonstrate fine structure that is not predicted by simulations using the currently tabulated refractive index (optical constants) values for Cr. V

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