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Superconductivity from energy fluctuations in dilute quantum critical polar metals

Author

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  • Pavel A. Volkov

    (Rutgers University)

  • Premala Chandra

    (Rutgers University)

  • Piers Coleman

    (Rutgers University
    University of London)

Abstract

Superconductivity in low carrier density metals challenges the conventional electron-phonon theory due to the absence of retardation required to overcome Coulomb repulsion. Here we demonstrate that pairing mediated by energy fluctuations, ubiquitously present close to continuous phase transitions, occurs in dilute quantum critical polar metals and results in a dome-like dependence of the superconducting Tc on carrier density, characteristic of non-BCS superconductors. In quantum critical polar metals, the Coulomb repulsion is heavily screened, while the critical transverse optical phonons decouple from the electron charge. In the resulting vacuum, long-range attractive interactions emerge from the energy fluctuations of the critical phonons, resembling the gravitational interactions of a chargeless dark matter universe. Our estimates show that this mechanism may explain the critical temperatures observed in doped SrTiO3. We provide predictions for the enhancement of superconductivity near polar quantum criticality in two- and three-dimensional materials that can be used to test our theory.

Suggested Citation

  • Pavel A. Volkov & Premala Chandra & Piers Coleman, 2022. "Superconductivity from energy fluctuations in dilute quantum critical polar metals," Nature Communications, Nature, vol. 13(1), pages 1-7, December.
    • Handle: RePEc:nat:natcom:v:13:y:2022:i:1:d:10.1038_s41467-022-32303-2
    DOI: 10.1038/s41467-022-32303-2
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