ARPES investigations of single unit cell iron selenide

James Lee; Felix Schmitt; Robert Moore; Steve Johnston; Yongtao Cui; Wei Li; Ming Yi; Zhongkai Liu; Makoto Hashimoto; Yan Zhang; Donghui Lu; Tom Devereaux; Dung-Hai Lee; Zhi-Xun Shen

ARPES investigations of single unit cell iron selenide

ORAL

Abstract

Recent spectroscopic measurements on single unit cell iron selenide (1UC FeSe) films have indicated the opening of a superconducting-like gap at temperatures near 65K. ~A current goal is to understand the cause of such a high gap-opening temperature in this system and its relation to superconductivity. Here we present in-situ angle-resolved photoemission studies of 1UC FeSe films grown via molecular beam epitaxy. We find signatures of strong coupling between the electrons in the FeSe and the phonons in the substrate, which manifest as replica bands in the spectra. The implications of this electron-phonon coupling on the Cooper-pairing interaction strength are discussed.

March 4, 2014, 12:15 PM – March 4, 2014, 12:27 PM

Authors

James Lee
- Stanford Univ.
- Stanford Univ
Felix Schmitt
- Stanford Univ
Robert Moore
- Stanford Institute for Materials and Energy Sciences
Steve Johnston
- University of British Columbia
Yongtao Cui
- Stanford Univ
Wei Li
- Stanford Univ
Ming Yi
- Stanford Univ
Zhongkai Liu
- Stanford Univ
Makoto Hashimoto
- Stanford Synchrotron Radiation Lightsource
Yan Zhang
- Stanford Univ
Donghui Lu
- Stanford Synchrotron Radiation Lightsource
Tom Devereaux
- Stanford Institute for Materials and Energy Sciences
Dung-Hai Lee
- University of California, Berkeley
Zhi-Xun Shen
- Stanford Univ