Magnetotransport properties of layered quasi-one-dimensional superconductor Ta2PdS5

ORAL

Abstract

Ternary Ta2PdS5 is a newly discovered low-dimensional superconductor with typical quasi one-dimensional chain structure, which has attracted a great deal of research attention owing to its intriguing physical properties. Here we report the systematic study of magnetotransport properties of Ta2PdS5 nanowires exfoliated from its bulk material. The superconducting critical field of system shows strong anisotropic behavior and violation of the Pauli limit when the magnetic field is along the b-axis. I-V measurements show a series of multiple voltage steps in transition to normal state and systematic hysteresis between the up and down sweeps, indicating a typical quasi-one dimensional nature in its superconductivity. Surprisingly, the nanowire undergoes a superconductor-metal transition with increasing perpendicular magnetic field. Upon approaching the zero-temperature quantum critical point, the system uncovers the signature of the quantum Griffiths singularity state arising from enhanced quenched disorders, where the dynamical critical exponent becomes diverging rather than being constant.

*Enze Zhang acknowledges support from China Postdoctoral Innovative Talents Support Program

Presenters

  • Enze Zhang

    • Department of Physics, Fudan Univ
    • Fudan Univ

Authors

  • Enze Zhang

    • Department of Physics, Fudan Univ
    • Fudan Univ

  • Jinhua Zhi

    • Peking University

  • Yi-Chao Zou

    • The University of Queensland

  • Zefang Ye

    • Fudan Univ

  • Linfeng Ai

    • Fudan Univ

  • Jiacheng Shi

    • Fudan Univ

  • Ce Huang

    • Fudan Univ

  • Shanshan Liu

    • Department of Physics, Fudan Univ
    • Fudan Univ

  • Ning Kang

    • Peking University

  • Hongqi Xu

    • Peking University

  • Wei Wang

    • Nanjing University

  • Liang He

    • Nanjing University

  • Jin Zou

    • The University of Queensland

  • Jinyu Liu

    • Department of Physics and Astronomy and California Nano Systems Institute, University of California, Los Angeles, CA 90095, USA
    • Tulane Univ
    • Tulane University

  • Zhiqiang Mao

    • Pennsylvania State University
    • Tulane University
    • Physics, Pennsylvania State University
    • Department of Physics, Pennsylvania State University, University Park, Pennsylvania 16802, USA
    • Physics, The Pennsylvania State University
    • Department of Physics, Pennsylvania State University
    • Penn State University
    • Physics, Penn State University
    • The Pennsylvania State University

  • Faxian Xiu

    • Fudan Univ
    • Department of Physics, Fudan Univ
    • Department of Physics, Fudan University
    • Physics, Fudan University