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Paper detail

Bosonic topological insulator intermediate state in the superconductor-insulator transition

A low-temperature intervening metallic regime arising in the two-dimensional superconductor-insulator transition challenges our understanding of electronic fluids. Here we develop a gauge theory revealing that this emergent anomalous metal is a bosonic topological insulator where bulk transport is suppressed by mutual statistics interactions between out-of-condensate Cooper pairs and vortices and the longitudinal conductivity is mediated by symmetry-protected gapless edge modes. We explore the magnetic-field-driven superconductor-insulator transition in a niobium titanium nitride device and find marked signatures of a bosonic topological insulator behavior of the intervening regime with the saturating resistance. The observed superconductor-anomalous metal and insulator-anomalous metal dual phase transitions exhibit quantum Berezinskii-Kosterlitz-Thouless criticality in accord with the gauge theory.

preprint2019arXivOpen access
M. C. DiamantiniA. Yu. MironovS. V. PostolovaX. LiuZ. HaoD. M. SilevitchYa. KopelevichP. KimC. A. TrugenbergerV. M. Vinokur
cond-mat.str-el
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Authors

M. C. DiamantiniA. Yu. MironovS. V. PostolovaX. LiuZ. HaoD. M. SilevitchYa. KopelevichP. KimC. A. TrugenbergerV. M. Vinokur

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