Physical Review Research (Jan 2023)

Superconductivity of repulsive spinless fermions with sublattice potentials

  • Yuchi He,
  • Kang Yang,
  • Jonas B. Profe,
  • Emil J. Bergholtz,
  • Dante M. Kennes

DOI
https://doi.org/10.1103/PhysRevResearch.5.L012009
Journal volume & issue
Vol. 5, no. 1
p. L012009

Abstract

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We explore unconventional superconductivity of repulsive spinless fermions on square and honeycomb lattices with staggered sublattice potentials. The two lattices can exhibit staggered d-wave and f-wave pairing, respectively, at low doping stemming from an effective two-valley band structure. At higher doping, in particular, the square lattice displays a much richer phase diagram including topological p+ip superconductivity which is induced by a qualitatively different mechanism compared to the d-wave pairing. We illuminate this from several complementary perspectives: We analytically perform sublattice projection to analyze the effective continuum low-energy description and we numerically calculate the binding energies for pair and larger bound states for few-body doping near half filling. Furthermore, for finite doping, we present phase diagrams based on extensive functional renormalization group and and density matrix renormalization group calculations.