期刊
PHYSICAL REVIEW B
卷 103, 期 24, 页码 -出版社
AMER PHYSICAL SOC
DOI: 10.1103/PhysRevB.103.245301
关键词
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资金
- Aspen Center for Physics (NSF) [1066293]
- US-Israel Binational Science Foundation [2016130, 2018726]
- Israel Science Foundation (ISF) [993/19]
The research reveals that interactions and disorder in low-dimensional superconductors can lead to the formation of multiple quantum phases at a quantum critical point, with a key feature being the perfect Z(2) symmetry. The study of weak disorder on a two-leg Josephson ladder model has identified at least one intermediate phase between a full-fledged superconductor and a disorder-dominated insulator, with the presence of two distinct mixed phases.
The interplay of interactions and disorder in low-dimensional superconductors supports the formation of multiple quantum phases as possible instabilities of the superconductor-insulator transition (SIT) at a singular quantum critical point. We explore a one-dimensional model which exhibits such a variety of phases in the strongly quantum fluctuations regime. Specifically, we study the effect of weak disorder on a two-leg Josephson ladder with comparable Josephson and charging energies (E-J similar to E-C). An additional key feature of our model is the requirement of perfect Z(2) symmetry, respected by all parameters including the disorder. Using a perturbative renormalization-group (RG) analysis, we derive the phase diagram and identify at least one intermediate phase between a full-fledged superconductor and a disorder-dominated insulator. Most prominently, for repulsive interactions on the rungs we identify two distinct mixed phases: In both of them the longitudinal charge mode is a gapless superconductor, however one phase exhibits a dipolar charge density order on the rungs, while the other is disordered. This latter phase is characterized by coexisting superconducting (phase-locked) and charge-ordered rungs, and encompasses the potential of evolving into a Griffith's phase characteristic of the random-field Ising model in the strong disorder limit.
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