Description
Motivated by the experimental progresses in controlling the properties of the energy bands in superconductors, using for instance moiré engineering, significant theoretical efforts have been devoted to study the effect of the quantum geometry and the flatness of the dispersion on the superfluid weight (superfluid density). In conventional superconductors, where the energy bands are wide and the Fermi energy is large, the contribution due to the quantum geometry is negligible, but in the opposite limit of flat-band superconductors the superfluid weight originates purely from the quantum geometry of the Bloch wave functions.In this work [7], we study how the energy band dispersion and the quantum geometry affect the disorder-induced suppression of the superfluid weight. Surprisingly, we find that the disorder-dependence of the superfluid weight is universal across a variety of theoretical models, and independent of the quantum geometry and the flatness of the dispersion. Our results suggest that a flat-band superconductor is as resilient to disorder as a conventional superconductor, even if the flat band is topologically nontrivial with nonzero Chern number.
| Aikajakso | 3 maalisk. 2022 |
|---|---|
| Tapahtuman otsikko | Physics Days: Annual Meeting of the Finnish Physical Society |
| Tapahtuman tyyppi | Conference |
| Sijainti | Espoo, SuomiNäytä kartalla |
| Tunnustuksen arvo | National |
Asiakirjat ja linkit
Tähän liittyvä sisältö
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Julkaisut ja taiteelliset tuotokset
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Universal suppression of superfluid weight by non-magnetic disorder in s-wave superconductors independent of quantum geometry and band dispersion
Tutkimustuotos: Lehtiartikkeli › Article › Scientific › vertaisarvioitu
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Projektit
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Peotta Sebastiano AT-kulut
Projekti: RCF Academy Research Fellow: Research costs