Ultrafast Electron-Phonon and Phonon-Phonon Interactions in Multilayer 2H-MoTe<sub>2</sub>

ORAL

Abstract

Transition metal dichalcogenides are emerging novel functional materials for many potential applications. However, its fundamental properties and physics at a short time scale is still unclear. Here, we used the ultrafast electron diffraction to investigate the nonradiative process such as electron-phonon and phonon-phonon interactions with a temporal resolution of ~200 fs. A multilayer 2H-MoTe2 was photoexcited at 400 nm and 800 nm, respectively, to create a high carrier density, leading to a temperature jump of tens of kelvin. A strong diffuse scattering appears in the diffraction pattern in a picosecond time scale, implying a fast and effecient electron-phonon interaction. We also observed an anisotropic population of phonon branches specifically located at M-point, corresponding to the Mo-Mo dimerization coordinate. The nonadiabatic quantum molecular dynamics (NAQMD) simulation was incorporated to disentangle the complex light-induced structure disorder dynamics, which also sheds new light on light-driven structure phase transition for 2D materials.

*This work was supported by Computational Materials Sciences Program by DOE BES, Award Number DE-SC00014607. UED work is supported by DOE BES Scientific User Facilities and SLAC UED/UEM fund, Contract No. DE-AC02-05CH11231.

Presenters

  • Ming-Fu Lin

    • SLAC National Accelerator Laboratory
    • SLAC - Natl Accelerator Lab

Authors

  • Ming-Fu Lin

    • SLAC National Accelerator Laboratory
    • SLAC - Natl Accelerator Lab

  • Aravind Krishnamoorthy

    • Physics & Astronomy, University of Southern California
    • Univ of Southern California
    • Physics, University of Southern California
    • University of Southern California

  • Clemens Weninger

    • SLAC National Accelerator Laboratory
    • SLAC - Natl Accelerator Lab

  • Xiang Zhang

    • Rice University

  • Vidya Kochat

    • Rice University

  • Amey Apte

    • MSNE, Rice Univ
    • Rice University

  • Xiaozhe Shen

    • SLAC National Accelerator Laboratory
    • SLAC - Natl Accelerator Lab

  • Rajiv Kalia

    • Univ of Southern California
    • Physics & Astronomy, University of Southern California
    • University of Southern California
    • Mork Family Department of Chemical Engineering and Materials Science, Univ of Southern California
    • Collaboratory of Advanced Computing and Simulations, Univ of Southern California
    • Collaboratory for Advanced Computing and Simulations, University of Southern California
    • Physics, University of Southern California

  • Pulickel Ajayan

    • Materials Science & NanoEngineering, Rice University
    • MSNE, Rice Univ
    • Department of Materials Science and Nano Engineering, Rice University
    • Department of Materials Science and Nanoengineering, Rice university
    • Rice University

  • Aiichiro Nakano

    • Univ of Southern California
    • Physics & Astronomy, University of Southern California
    • University of Southern California
    • Mork Family Department of Chemical Engineering and Materials Science, Univ of Southern California
    • Collaboratory of Advanced Computing and Simulations, Univ of Southern California
    • Physics, University of Southern California

  • Priya Vashishta

    • Univ of Southern California
    • Physics & Astronomy, University of Southern California
    • University of Southern California
    • Mork Family Department of Chemical Engineering and Materials Science, Univ of Southern California
    • Collaboratory of Advanced Computing and Simulations, Univ of Southern California
    • Collaboratory for Advanced Computing and Simulations, University of Southern California
    • Physics, University of Southern California

  • Xijie Wang

    • SLAC National Accelerator Laboratory
    • SLAC - Natl Accelerator Lab

  • David Fritz

    • SLAC - Natl Accelerator Lab

  • Uwe Bergmann

    • SLAC National Accelerator Laboratory
    • SLAC - Natl Accelerator Lab