Large, Room Temperature Photocurrents in WSM TaAs

ORAL

Abstract

Numerous predictions exist for novel photocurrent generation related to the novel topology of inversion breaking Weyl semi-metals. We present here the first observation of room temperature, polarization controlled, photocurrents in mesoscale TaAs devices. From their qualitatively different polarization and frequency dependencies we are able to disentangle these from more mundane thermal effects. The magnitude of the photocurrents is consistent with reports of an intrinsically large second order optical response in TaAs, due to the unique band topology. Furthermore, these results suggest TaAs could be a promising material for optoelectronic and photovoltaic applications.

*NSF DMR 1709987
Max-Planck Society
Work at UCLA was supported by the U.S. Department of Energy (DOE), Office of Science, Office of Basic Energy Sciences under Award Number DE-SC0011978

Presenters

  • Gavin Osterhoudt

    • Boston Coll
    • Physics, Boston College

Authors

  • Gavin Osterhoudt

    • Boston Coll
    • Physics, Boston College

  • Laura Katharina-Diebel

    • Physics, University of Regensburg

  • Ryan Conrad

    • Boston Coll

  • Kai Kharpertian

    • Boston Coll

  • Bing Shen

    • Physics, University of California at Los Angeles
    • Department of Physics and Astronomy and California NanoSystems Institute, University of California, Los Angeles
    • Physics, University of California, Los Angeles
    • Physics and Astronomy, Univ of California - Los Angeles

  • Ni Ni

    • University of California, Los Angeles
    • Department of Physics and Astronomy and California Nano Systems Institute, Univ of California - Los Angeles
    • University of California
    • Physics, University of California, Los Angeles
    • Department of Physics and Astronomy and California NanoSystems Institute, University of California, Los Angeles

  • Philip Moll

    • Max Planck Institute for Chemical Physics of Solids
    • Max Planck Inst

  • Kenneth Burch

    • Boston Coll
    • Department of Physics, Boston Coll
    • Physics, Boston College