Non-local optical plasmon supported by Fermi arc states in thin film Weyl semimetal

ORAL

Abstract

The Fermi surface of a thin-film Weyl semimetal consists of highly anisotropic contours, each of which contains topologically protected Fermi arc states on the thin-film surfaces, as well as states with dominant support in the bulk of the system. We study collective charge oscillations for this system, uncovering a single optical plasmonic mode originating from collective oscillations on the two surfaces. Remarkably, these lowest frequency modes involve surface charges which oscillate out-of-phase, suggesting the resulting electric fields are relatively confined to the interior of the thin film. We discuss possible implications of our findings for plasmonic applications.

*HAF thanks the NSF for support through Grant Nos. DMR-1914451, DMR-1506263 and DMR-1506460, by the US-Israel Binational Science Foun-dation. AK thanks support from SERB (Gov. of India) through grant ECR/2018/001443, BRNS (Gov. ofIndia) support through grant 58/20/15/2019-BRNS, SPARC initiative from MHRD (Gov. of India). We also thank HPC facility of IIT Kanpur. DG Acknowledges support drom CSIR (Gov. of India).

Presenters

  • Debasmita Giri

    • Indian Inst of Tech-Kanpur

Authors

  • Debasmita Giri

    • Indian Inst of Tech-Kanpur

  • Dibya Kanti Mukherjee

    • University of Paris-Sud, Orsay

  • Sonu Verma

    • Indian Inst of Tech-Kanpur

  • Herb Fertig

    • Indiana Univ - Bloomington
    • Physics, Indiana University, Bloomington

  • Arijit Kundu

    • Indian Institute of Technology Kanpur (IIT)
    • Indian Inst of Tech-Kanpur