Author
Listed:
- Enze Zhang
(Fudan University
Fudan University)
- Jinhua Zhi
(Peking University)
- Yi-Chao Zou
(The University of Queensland
The University of Queensland)
- Zefang Ye
(Fudan University
Fudan University)
- Linfeng Ai
(Fudan University
Fudan University)
- Jiacheng Shi
(Fudan University
Fudan University)
- Ce Huang
(Fudan University
Fudan University)
- Shanshan Liu
(Fudan University
Fudan University)
- Zehao Lin
(Fudan University
Fudan University)
- Xinyuan Zheng
(Fudan University
Fudan University)
- Ning Kang
(Peking University)
- Hongqi Xu
(Peking University)
- Wei Wang
(Nanjing University)
- Liang He
(Nanjing University)
- Jin Zou
(The University of Queensland
The University of Queensland)
- Jinyu Liu
(Tulane University)
- Zhiqiang Mao
(Tulane University)
- Faxian Xiu
(Fudan University
Fudan University
Nanjing University)
Abstract
Quantum Griffiths singularity was theoretically proposed to interpret the phenomenon of divergent dynamical exponent in quantum phase transitions. It has been discovered experimentally in three-dimensional (3D) magnetic metal systems and two-dimensional (2D) superconductors. But, whether this state exists in lower dimensional systems remains elusive. Here, we report the signature of quantum Griffiths singularity state in quasi-one-dimensional (1D) Ta2PdS5 nanowires. The superconducting critical field shows a strong anisotropic behavior and a violation of the Pauli limit in a parallel magnetic field configuration. Current-voltage measurements exhibit hysteresis loops and a series of multiple voltage steps in transition to the normal state, indicating a quasi-1D nature of the superconductivity. Surprisingly, the nanowire undergoes a superconductor-metal transition when the magnetic field increases. 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.
Suggested Citation
Enze Zhang & Jinhua Zhi & Yi-Chao Zou & Zefang Ye & Linfeng Ai & Jiacheng Shi & Ce Huang & Shanshan Liu & Zehao Lin & Xinyuan Zheng & Ning Kang & Hongqi Xu & Wei Wang & Liang He & Jin Zou & Jinyu Liu , 2018.
"Signature of quantum Griffiths singularity state in a layered quasi-one-dimensional superconductor,"
Nature Communications, Nature, vol. 9(1), pages 1-9, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-07123-y
DOI: 10.1038/s41467-018-07123-y
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