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Revisiting flat band superconductivity: Dependence on minimal quantum metric and band touchings

Author(s): Huhtinen, Kukka-Emilia; Herzog-Arbeitman, Jonah; Chew, Aaron; Bernevig, Bogdan A; Törmä, Päivi

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dc.contributor.authorHuhtinen, Kukka-Emilia-
dc.contributor.authorHerzog-Arbeitman, Jonah-
dc.contributor.authorChew, Aaron-
dc.contributor.authorBernevig, Bogdan A-
dc.contributor.authorTörmä, Päivi-
dc.date.accessioned2024-02-18T15:55:40Z-
dc.date.available2024-02-18T15:55:40Z-
dc.identifier.citationHuhtinen, Kukka-Emilia, Herzog-Arbeitman, Jonah, Chew, Aaron, Bernevig, Bogdan A, Törmä, Päivi. (Revisiting flat band superconductivity: Dependence on minimal quantum metric and band touchings. Physical Review B, 106 (1), 10.1103/physrevb.106.014518en_US
dc.identifier.issn2469-9950-
dc.identifier.urihttp://arks.princeton.edu/ark:/88435/pr1kw57j3x-
dc.description.abstractA central result in superconductivity is that flat bands, though dispersionless, can still host a nonzero superfluid weight due to quantum geometry. We show that the derivation of the mean field superfluid weight in previous literature is incomplete, which can lead to severe quantitative and even qualitative errors. We derive the complete equations and demonstrate that the minimal quantum metric, the metric with minimum trace, is related to the superfluid weight in isolated flat bands. We complement this result with an exact calculation of the Cooper pair mass in attractive Hubbard models with the uniform pairing condition. When the orbitals are located at high-symmetry positions, the Cooper pair mass is exactly given by the quantum metric, which is guaranteed to be minimal. Moreover, we study the effect of closing the band gap between the flat and dispersive bands, and develop a mean field theory of pairing for different band-touching points via the S-matrix construction. In mean field theory, we show that a nonisolated flat band can actually be beneficial for superconductivity. This is a promising result in the search for high-temperature superconductivity as the material does not need to have flat bands that are isolated from other bands by the thermal energy. Our work resolves a fundamental caveat in understanding the relation of multiband superconductivity to quantum geometry, and the results on band touchings widen the class of systems advantageous for the search of high-temperature flat band superconductivity.en_US
dc.languageenen_US
dc.language.isoen_USen_US
dc.relation.ispartofPhysical Review Ben_US
dc.rightsAuthor's manuscripten_US
dc.titleRevisiting flat band superconductivity: Dependence on minimal quantum metric and band touchingsen_US
dc.typeJournal Articleen_US
dc.identifier.doidoi:10.1103/physrevb.106.014518-
dc.date.eissued2022-07-26en_US
dc.identifier.eissn2469-9969-
pu.type.symplectichttp://www.symplectic.co.uk/publications/atom-terms/1.0/journal-articleen_US

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