Femtosecond electron-phonon lock-in by photoemission and x-ray free-electron laser | Zendy

Simon Gerber | Zendy; Shuolong Yang | Zendy; Diling Zhu | Zendy; Hadas Soifer | Zendy; Jonathan A. Sobota | Zendy; Slavko Rebec | Zendy; J. J. Lee | Zendy; Tao Jia | Zendy; Brian Moritz | Zendy; Chunjing Jia | Zendy; Alexandre Gauthier | Zendy; Yilei Li | Zendy; D. Leuenberger | Zendy; Yiting Zhang | Zendy; L. Chaix | Zendy; W. Li | Zendy; Hoyoung Jang | Zendy; J.-S. Lee | Zendy; Ming Yi | Zendy; Georgi L. Dakovski | Zendy; Sanghoon Song | Zendy; James M. Glownia | Zendy; S. Nelson | Zendy; K. W. Kim | Zendy; YiDe Chuang | Zendy; Z. Hussain | Zendy; R. G. Moore | Zendy; Thomas Devereaux | Zendy; W.-S. Lee | Zendy; P. S. Kirchmann | Zendy; ZhiXun Shen | Zendy

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Femtosecond electron-phonon lock-in by photoemission and x-ray free-electron laser

Author(s) -

Simon Gerber,

Shuolong Yang,

Diling Zhu,

Hadas Soifer,

Jonathan A. Sobota,

Slavko Rebec,

J. J. Lee,

Tao Jia,

Brian Moritz,

Chunjing Jia,

Alexandre Gauthier,

Yilei Li,

D. Leuenberger,

Yiting Zhang,

L. Chaix,

W. Li,

Hoyoung Jang,

J.-S. Lee,

Ming Yi,

Georgi L. Dakovski,

Sanghoon Song,

James M. Glownia,

S. Nelson,

K. W. Kim,

YiDe Chuang,

Z. Hussain,

R. G. Moore,

Thomas Devereaux,

W.-S. Lee,

P. S. Kirchmann,

ZhiXun Shen

Publication year - 2017

Publication title -

science

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 12.556

H-Index - 1186

eISSN - 1095-9203

pISSN - 0036-8075

DOI - 10.1126/science.aak9946

Subject(s) - pairing , selenide , superconductivity , angle resolved photoemission spectroscopy , electron , condensed matter physics , photoemission spectroscopy , quasiparticle , electron pair , femtosecond , physics , phonon , femtochemistry , electronic structure , chemistry , x ray photoelectron spectroscopy , laser , quantum mechanics , nuclear magnetic resonance , organic chemistry , selenium

The interactions that lead to the emergence of superconductivity in iron-based materials remain a subject of debate. It has been suggested that electron-electron correlations enhance electron-phonon coupling in iron selenide (FeSe) and related pnictides, but direct experimental verification has been lacking. Here we show that the electron-phonon coupling strength in FeSe can be quantified by combining two time-domain experiments into a "coherent lock-in" measurement in the terahertz regime. X-ray diffraction tracks the light-induced femtosecond coherent lattice motion at a single phonon frequency, and photoemission monitors the subsequent coherent changes in the electronic band structure. Comparison with theory reveals a strong enhancement of the coupling strength in FeSe owing to correlation effects. Given that the electron-phonon coupling affects superconductivity exponentially, this enhancement highlights the importance of the cooperative interplay between electron-electron and electron-phonon interactions.

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