Disorder‐Induced Quantum Griffiths Singularity Revealed in an Artificial 2D Superconducting System
Abstract Disorder‐induced Griffiths singularity of quantum phase transition (QPT) is a crucial issue in 2D superconductors (2DSC). In a superconducting system, the strength of disorder is found to be associated with the vortex pinning energy, which is closely related to the quantum Griffiths singula...
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2020-10-01
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| Series: | Advanced Science |
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| Online Access: | https://doi.org/10.1002/advs.201902849 |
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doaj-877f8f0075194891b8de1623b67e27122020-11-25T03:57:07ZengWileyAdvanced Science2198-38442020-10-01720n/an/a10.1002/advs.201902849Disorder‐Induced Quantum Griffiths Singularity Revealed in an Artificial 2D Superconducting SystemXiaowen Han0Yufeng Wu1Hong Xiao2Miao Zhang3Min Gao4Yi Liu5Jian Wang6Tao Hu7Xiaoming Xie8Zengfeng Di9State Key Laboratory of Functional Materials for Informatics Shanghai Institute of Microsystem and Information Technology Chinese Academy of Sciences 865 Changning Road Shanghai 200050 ChinaState Key Laboratory of Functional Materials for Informatics Shanghai Institute of Microsystem and Information Technology Chinese Academy of Sciences 865 Changning Road Shanghai 200050 ChinaCenter for High Pressure Science and Technology Advanced Research Beijing 100094 ChinaState Key Laboratory of Functional Materials for Informatics Shanghai Institute of Microsystem and Information Technology Chinese Academy of Sciences 865 Changning Road Shanghai 200050 ChinaState Key Laboratory of Functional Materials for Informatics Shanghai Institute of Microsystem and Information Technology Chinese Academy of Sciences 865 Changning Road Shanghai 200050 ChinaInternational Center for Quantum Materials School of Physics Peking University Beijing 100871 ChinaInternational Center for Quantum Materials School of Physics Peking University Beijing 100871 ChinaState Key Laboratory of Functional Materials for Informatics Shanghai Institute of Microsystem and Information Technology Chinese Academy of Sciences 865 Changning Road Shanghai 200050 ChinaState Key Laboratory of Functional Materials for Informatics Shanghai Institute of Microsystem and Information Technology Chinese Academy of Sciences 865 Changning Road Shanghai 200050 ChinaState Key Laboratory of Functional Materials for Informatics Shanghai Institute of Microsystem and Information Technology Chinese Academy of Sciences 865 Changning Road Shanghai 200050 ChinaAbstract Disorder‐induced Griffiths singularity of quantum phase transition (QPT) is a crucial issue in 2D superconductors (2DSC). In a superconducting system, the strength of disorder is found to be associated with the vortex pinning energy, which is closely related to the quantum Griffiths singularity; however, a direct study to elucidate the role of vortex pinning energy on the quantum Griffiths singularity in 2DSC remains to be undertaken. Here, an artificial 2DSC system is designed by randomly depositing superconducting nanoislands on 2Delectron gas (2DEG). Quantum Griffiths singularity is present in a graphene/Pb‐islands‐array hybrid, where the superconducting behavior transits to weakly localized metallic behavior induced by the vertical magnetic field and exhibits critical behavior with a diverging dynamical critical exponent approaching zero temperature. Compared to the study of graphene/Sn‐islands‐array hybrid where the sharp QPT is observed, the vortex pinning energy acquired from the Arrhenius plot analysis is greater in graphene/Pb‐islands‐array hybrid, which may contribute to the presence of the quantum Griffiths singularity. This work may provide a comprehensive interpretation of the QPT in 2DSC.https://doi.org/10.1002/advs.2019028492D electron gas (2DEG)disorderquantum Griffiths singularityquantum phase transition (QPT)vortex pinning energy |
| collection |
DOAJ |
| language |
English |
| format |
Article |
| sources |
DOAJ |
| author |
Xiaowen Han Yufeng Wu Hong Xiao Miao Zhang Min Gao Yi Liu Jian Wang Tao Hu Xiaoming Xie Zengfeng Di |
| spellingShingle |
Xiaowen Han Yufeng Wu Hong Xiao Miao Zhang Min Gao Yi Liu Jian Wang Tao Hu Xiaoming Xie Zengfeng Di Disorder‐Induced Quantum Griffiths Singularity Revealed in an Artificial 2D Superconducting System Advanced Science 2D electron gas (2DEG) disorder quantum Griffiths singularity quantum phase transition (QPT) vortex pinning energy |
| author_facet |
Xiaowen Han Yufeng Wu Hong Xiao Miao Zhang Min Gao Yi Liu Jian Wang Tao Hu Xiaoming Xie Zengfeng Di |
| author_sort |
Xiaowen Han |
| title |
Disorder‐Induced Quantum Griffiths Singularity Revealed in an Artificial 2D Superconducting System |
| title_short |
Disorder‐Induced Quantum Griffiths Singularity Revealed in an Artificial 2D Superconducting System |
| title_full |
Disorder‐Induced Quantum Griffiths Singularity Revealed in an Artificial 2D Superconducting System |
| title_fullStr |
Disorder‐Induced Quantum Griffiths Singularity Revealed in an Artificial 2D Superconducting System |
| title_full_unstemmed |
Disorder‐Induced Quantum Griffiths Singularity Revealed in an Artificial 2D Superconducting System |
| title_sort |
disorder‐induced quantum griffiths singularity revealed in an artificial 2d superconducting system |
| publisher |
Wiley |
| series |
Advanced Science |
| issn |
2198-3844 |
| publishDate |
2020-10-01 |
| description |
Abstract Disorder‐induced Griffiths singularity of quantum phase transition (QPT) is a crucial issue in 2D superconductors (2DSC). In a superconducting system, the strength of disorder is found to be associated with the vortex pinning energy, which is closely related to the quantum Griffiths singularity; however, a direct study to elucidate the role of vortex pinning energy on the quantum Griffiths singularity in 2DSC remains to be undertaken. Here, an artificial 2DSC system is designed by randomly depositing superconducting nanoislands on 2Delectron gas (2DEG). Quantum Griffiths singularity is present in a graphene/Pb‐islands‐array hybrid, where the superconducting behavior transits to weakly localized metallic behavior induced by the vertical magnetic field and exhibits critical behavior with a diverging dynamical critical exponent approaching zero temperature. Compared to the study of graphene/Sn‐islands‐array hybrid where the sharp QPT is observed, the vortex pinning energy acquired from the Arrhenius plot analysis is greater in graphene/Pb‐islands‐array hybrid, which may contribute to the presence of the quantum Griffiths singularity. This work may provide a comprehensive interpretation of the QPT in 2DSC. |
| topic |
2D electron gas (2DEG) disorder quantum Griffiths singularity quantum phase transition (QPT) vortex pinning energy |
| url |
https://doi.org/10.1002/advs.201902849 |
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