Signature of quantum Griffiths singularity state in a layered quasi-one-dimensional superconductor

Zhang, Enze; Zhi, Jinhua; Zou, Yichao; Ye, Zefang; Ai, Linfeng; Shi, Jiacheng; Huang, Ce; Liu, Shanshan; Lin, Zehao; Zheng, Xiaokun; Kang, Ning; Xu, Hongqi; Wang, Wei; He, Liang; Zou, Jin; Liu, Jinyu; Mao, Zhiqiang; Xiu, Faxian

doi:10.1038/s41467-018-07123-y

Cited by 25 publications

(35 citation statements)

References 52 publications

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“…The quantum vortex creep state evolves to a socalled quantum Griffiths state with the QGS above H MF c2 T ð Þ and below H c (T) 17 . In a region with a sufficiently high magnetic field, the H c of the SIT with a QGS increases slowly at low temperatures and tends to saturate around H Ã c as the temperature approaches 0 K, which is different from the upturn trend of H c (T) observed in SMT systems 1,14,15,17 . This difference between the SIT and SMT systems with a QGS might be related to the different normal state backgrounds for the superconducting rare regions; the normal state background is insulating in the TiO SIT system but metallic in the previous SMT systems.…”

Section: Discussionmentioning

confidence: 59%

“…This difference between the SIT and SMT systems with a QGS might be related to the different normal state backgrounds for the superconducting rare regions; the normal state background is insulating in the TiO SIT system but metallic in the previous SMT systems. As previously discussed, in SMT systems 1,11,14,16 , the QGS in the low-temperature regime is closely related to the locally ordered superconducting rare regions that are coupled through Josephson couplings. The Josephson interaction strength is critically important for the formation and properties of rare regions, and the interaction strength is different for SMT and SIT systems with metallic and insulating normal states, respectively.…”

Section: Discussionmentioning

confidence: 78%

“…The superconductor-insulator (metal) transition (SIT/ SMT), a remarkable paradigm of the quantum phase transition (QPT), has been an important issue because this exotic phenomenon not only extends our understanding of the novel physical nature of the QPT but also contributes to the design of quantum devices, such as superconducting qubits 1,2 . The ground state of SIT/SMT can be tuned by a variety of external parameters, such as the magnetic field 3 , thickness 4,5 , disorder 6 , chemical composition 7 , charge density 8 , or gate voltage 9,10 , instead of thermal fluctuations.…”

Section: Introductionmentioning

confidence: 99%

“…In 2015, a totally different type of SMT called a quantum Griffiths singularity (QGS) was strikingly reported in a molecular-beam-epitaxy (MBE)-grown Ga trilayer 14 that shows diverging dynamic exponents and a continuous line of QCPs. Since this discovery, examples of SMTs with a QGS have been observed in a NbSe 2 monolayer 15 , a LaAlO 3 /SrTiO 3 (110) interface 16 , quasi-one-dimensional Ta 2 PdS 5 nanowires 1 , and ion-gated superconducting surfaces of ZrNCl and MoS 2 single crystals 17 . In the QGS picture, locally ordered superconducting islands (rare regions) that survive in the normal state background exist.…”

Section: Introductionmentioning

confidence: 99%

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Quantum Griffiths singularities in TiO superconducting thin films with insulating normal states

et al. 2019

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A superconductor-metal transition (SMT) with an unconventional diverging dynamic critical exponent was recently discovered, and it drew tremendous attention because this signature of a quantum Griffiths singularity (QGS) was thought to be a common characteristic of low-disorder crystalline superconductors. However, because the QGS was observed only in limited materials with metallic normal states, the question of whether the QGS exists in other superconducting systems is still unanswered. In this paper, a superconductor-insulator transition (SIT) is observed in TiO thin films with insulating normal states, which offers a more universal platform for investigating the QGS. A thickness-tuned SIT is obtained when the magnetic field is zero. Importantly, a magnetic field-tuned SIT with a diverging dynamic critical exponent, which is direct evidence of a QGS, is observed in TiO thin films with different thicknesses. By constructing a comprehensive phase diagram, it is demonstrated that the critical magnetic field H c tends to saturate as the temperature approaches 0 K, which is different from the upturn trend of H c observed in SMT systems and probably due to the weaker Josephson coupling of the locally ordered superconducting islands (rare regions) in a weakly insulating normal state background. The results extend the QGS scenario from only SMT systems to SIT systems, and they provide vital evidence that QGSs are common in crystalline superconducting thin films, which has possible applications in quantum-computing devices.

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Section: Discussionmentioning

confidence: 59%

Section: Discussionmentioning

confidence: 78%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Quantum Griffiths singularities in TiO superconducting thin films with insulating normal states

et al. 2019

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“…Moreover, recent observations in crystalline quasi-two-dimensional (2D) and one-dimensional (1D) superconducting systems revealed an unprecedented quantum-Griffiths singularity [27][28][29][30][31][32][33] , which is experimentally characterized by divergent critical-exponent products of the dynamical critical exponent and the correlation length exponent, $%. This novel phenomenon is attributed to quenched-disorder effects at the transitions, despite the origin of such quenched disorder in clean systems is somewhat obscure [27][28][29][30][31][32]34,35 .…”

mentioning

confidence: 99%

Size dependent nature of the magnetic-field driven superconductor-to-insulator quantum-phase transitions

et al. 2021

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The nature of the magnetic-field driven superconductor-to-insulator quantum-phase transition in two-dimensional systems at zero temperature has been under debate since the 1980s, and became even more controversial after the observation of a quantum-Griffiths singularity. Whether it is induced by quantum fluctuations of the superconducting phase and the localization of Cooper pairs, or is directly driven by depairing of these pairs, remains an open question. We herein experimentally demonstrate that in weakly-pinning systems and in the limit of infinitely wide films, a sequential superconductor-to-Bose insulator-to-Fermi insulator quantum-phase transition takes place. By limiting their size to smaller than the effective penetration depth, however, the vortex interaction alters, and the superconducting state re-enters the Bose-insulating state. As a consequence, one observes a direct superconductor-to-Fermi insulator in the zero-temperature limit. In narrow films, the associated critical-exponent products diverge along the corresponding phase boundaries with increasing magnetic field, which is a hallmark of the quantum-Griffiths singularity.

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Disorder‐Induced Quantum Griffiths Singularity Revealed in an Artificial 2D Superconducting System

Han

Xiao

et al. 2020

Advanced Science

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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.

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Signature of quantum Griffiths singularity state in a layered quasi-one-dimensional superconductor

Cited by 25 publications

References 52 publications

Quantum Griffiths singularities in TiO superconducting thin films with insulating normal states

Quantum Griffiths singularities in TiO superconducting thin films with insulating normal states

Size dependent nature of the magnetic-field driven superconductor-to-insulator quantum-phase transitions

Disorder‐Induced Quantum Griffiths Singularity Revealed in an Artificial 2D Superconducting System

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