Nguyen, D. H., Sidorenko, A., Taupin, M., Knebel, G., Lapertot, G., Schuberth, E., & Bühler-Paschen, S. (2021). Superconductivity in an extreme strange metal. Nature Communications, 12, Article 4341. https://doi.org/10.1038/s41467-021-24670-z
General Physics and Astronomy; General Chemistry; Multidisciplinary; General Biochemistry, Genetics and Molecular Biology
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Abstract:
Some of the highest-transition-temperature superconductors across various materials classes exhibit linear-in-temperature ‘strange metal’ or ‘Planckian’ electrical resistivities in their normal state. It is thus believed by many that this behavior holds the key to unlock the secrets of high-temperature superconductivity. However, these materials typically display complex phase diagrams governed by various competing energy scales, making an unambiguous identification of the physics at play difficult. Here we use electrical resistivity measurements into the micro-Kelvin regime to discover superconductivity condensing out of an extreme strange metal state—with linear resistivity over 3.5 orders of magnitude in temperature. We propose that the Cooper pairing is mediated by the modes associated with a recently evidenced dynamical charge localization–delocalization transition, a mechanism that may well be pertinent also in other strange metal superconductors.
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Research Areas:
Special and Engineering Materials: 15% Quantum Many-Body Systems: 85%
