Combined ARPES and DFT+eDMFT investigation on the effects of strain & doping in Fe(Se,Te) systems.
ORAL
Abstract
Recently, the effect of doping in the Fe(Se,Te) systems has been a point of interest in the literature as Fe(Se,Te) system can potentially exhibit topological superconductivity at relatively high temperatures. We use a combination of molecular beam epitaxial (MBE) growth, time and angle-resolved-photoemission-spectroscopy (trARPES), and ab initio embedded dynamical mean-field theory (eDMFT) to understand the correlated electronic and vibrational properties of Fe(Se,Te) systems under the applied in-plane strain. Using eDMFT, we compute structural parameters for various FeSe_xTe_{1-x} systems including the chalcogen heights and important phonon frequencies. eDMFT computed orbital-resolved spectral functions are found to be in excellent agreement with the ARPES data.
*This research was supported by the Air Force Office of Scientific Research of the Department of Defense under the award number FA9550-23-1-0498 of the DEPSCoR program. We also acknowledge the support from National Science Foundation Grant No. DMR-2011854 and DOE BES MSE and the Advanced Photon Source.
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Publication: No Publications have arisen from this work as of yet.
Presenters
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Christopher L Jacobs
- West Virginia University