Theoretical and Computational Analysis of Electron Phonon Coupling in CsV<sub>3</sub>Sb<sub>5</sub>

ORAL

Abstract

CsV3Sb5 exhibits both charge density wave and superconducting phases. It is part of a class of kagome lattices that also have a notable band structure consisting of a Dirac dispersion and Weyl nodes. Because of apparent competition between the charge density wave (CDW) and superconductivity, it is critical to understand the interplay between electronic and phonon responses. In this talk we will present theoretical and computational investigation of the Raman spectra and electron-phonon coupling in this material, both in the CDW and in the undistorted arrangement, examining the electronic coupling to A1g and E2g phonons. A Fano lineshape for the A1g phonon indicates a strong coupling to the electron continuum. We observe that the line shape changes in the CDW state and a general agreement between first principle investigation and experiment is found.

Presenters

  • Emma F Cuddy

    • Stanford University

Authors

  • Emma F Cuddy

    • Stanford University

  • Ge He

    • University College Cork

  • Leander Peis

    • Walther-Meissner-Institut
    • IFW Dresden; Walther-Meißner-Institut

  • Dong Li

    • Chinese Academy of Sciences,Institute of

  • Ramona Stumberger

    • Walther Meissner Institute
    • Walther Meissner Institut

  • Brian Moritz

    • SLAC National Accelerator Laboratory
    • SLAC - Natl Accelerator Lab

  • Haitao Yang

    • School of Physical Sciences, University of Chinese Academy of Sciences
    • Beijing National Laboratory for Condensed Matter Physics

  • Hongjun Gao

    • Chinese Academy of Sciences,Institute of Physics
    • Institute of Physics & University of Chinese Academy of Sciences

  • Rudi Hackl

    • Walther Meissner Institute
    • Walther Meissner Institut

  • Thomas Devereaux

    • Stanford Univ
    • Stanford University