Ultrafast multi-cycle terahertz measurements of the electrical conductivity in strongly excited solids-Reference-Cited by-同舟云学术

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

Published:2021-03-12 Issue:1 Volume:12 Page:
ISSN:2041-1723
Container-title:Nature Communications
language:en
Short-container-title:Nat Commun

Author:

Chen Z.^ORCID,Curry C. B.^ORCID,Zhang R.,Treffert F.^ORCID,Stojanovic N.,Toleikis S.,Pan R.,Gauthier M.,Zapolnova E.,Seipp L. E.,Weinmann A.,Mo M. Z.^ORCID,Kim J. B.,Witte B. B. L.,Bajt S.^ORCID,Usenko S.,Soufli R.^ORCID,Pardini T.,Hau-Riege S.,Burcklen C.,Schein J.,Redmer R.^ORCID,Tsui Y. Y.,Ofori-Okai B. K.^ORCID,Glenzer S. H.^ORCID

Abstract

AbstractKey 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.

Publisher

Springer Science and Business Media LLC

Subject

General Physics and Astronomy,General Biochemistry, Genetics and Molecular Biology,General Chemistry

Link

http://www.nature.com/articles/s41467-021-21756-6.pdf

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