SciPost Phys. 18, 025 (2025) ·
published 21 January 2025
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The possibility of an unconventional form of high temperature superconductivity in flat band (FB) material does not cease to challenge our understanding of the physics in correlated systems. Here, we calculate the normal and anomalous one-particle correlation functions in various one and two dimensional FB systems and systematically extract the characteristic lengthscales. When the Fermi energy is located in the FB, it is found that the coherence length (ξ) is of the order of the lattice spacing and weakly sensitive to the strength of the electron-electron interaction. Recently, it has been argued that in FB compounds ξ could be decomposed into a conventional part of BCS type (ξBCS) and a geometric contribution which characterises the FB eigenstates, the quantum metric (⟨g⟩). However, by calculating the coherence length in two possible ways, our calculations show that ξ≠√⟨g⟩. This may suggest that the link between QM and coherence length is more complex, and leaves us with the open question: what is the appropriate definition of the coherence length in flat-band systems?
SciPost Phys. Core 7, 018 (2024) ·
published 9 April 2024
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Unconventional flat band (FB) superconductivity, as observed in van der Waals heterostructures, could open promising avenues towards high-Tc materials. In FBs, pairings and superfluid weight scale linearly with the interaction parameter, such an unusual behaviour justifies and encourages strategies to promote FB engineering. Bipartite lattices (BLs) which naturally host FBs could be particularly interesting candidates. Within Bogoliubov de Gennes theory and in the framework of the attractive Hubbard model in BLs, a hidden symmetry of the quasi-particle eigenstates is revealed. As a consequence, we demonstrate universal relations for the pairings and the superfluid weight that are independent of the characteristics of the hopping term. Remarkably, it is shown that these general properties are insensitive to disorder as long as the bipartite character is protected.
