Intermediate bosonic metallic state in the superconductor-insulator transition

Intermediate bosonic metallic state in the superconductor-insulator transition

Whether a metallic ground state exists in a two-dimensional system beyond Anderson localization remains an unresolved question. We studied how quantum phase coherence evolves across superconductor–metal–insulator transitions through magnetoconductance quantum oscillations in nanopatterned high-tempe...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2019-12, Vol.366 (6472), p.1505-1509
Hauptverfasser: Yang, Chao, Liu, Yi, Wang, Yang, Feng, Liu, He, Qianmei, Sun, Jian, Tang, Yue, Wu, Chunchun, Xiong, Jie, Zhang, Wanli, Lin, Xi, Yao, Hong, Liu, Haiwen, Fernandes, Gustavo, Xu, Jimmy, Valles, James M., Wang, Jian, Li, Yanrong
Format: Artikel
Sprache:eng
Schlagworte:
Anderson localization
Barium
Bridges
Copper oxides
Etching
High temperature superconductors
Localization
Low temperature
Low temperature resistance
Magnetic fields
Metal-insulator transition
Oscillations
Phase coherence
Reactive ion etching
Superconducting films
Superconductivity
Transport properties
Yttrium
Yttrium barium copper oxide
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Beschreibung
Zusammenfassung:Whether a metallic ground state exists in a two-dimensional system beyond Anderson localization remains an unresolved question. We studied how quantum phase coherence evolves across superconductor–metal–insulator transitions through magnetoconductance quantum oscillations in nanopatterned high-temperature superconducting films. We tuned the degree of phase coherence by varying the etching time of our films. Between the superconducting and insulating regimes, we detected a robust intervening anomalous metallic state characterized by saturating resistance and oscillation amplitude at low temperatures. Our measurements suggest that the anomalous metallic state is bosonic and that the saturation of phase coherence plays a prominent role in its formation.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aax5798