In the α-T3 lattice with on-site asymmetry, mean-field theory shows a superconducting gap that grows as a power law with interaction strength at flat-band filling, while the geometric part of the superfluid weight grows linearly and is enhanced by tuning α.
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Frustrated quantum materials show topological spin-glass behavior with short-range correlations and low-energy excitations, unified by hydrodynamic spin modes and spin-jam states in a framework that bridges experiments and theory.
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Superconductivity and geometric superfluid weight of a tunable flat band system
In the α-T3 lattice with on-site asymmetry, mean-field theory shows a superconducting gap that grows as a power law with interaction strength at flat-band filling, while the geometric part of the superfluid weight grows linearly and is enhanced by tuning α.
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Topological spin freezing in frustrated quantum materials
Frustrated quantum materials show topological spin-glass behavior with short-range correlations and low-energy excitations, unified by hydrodynamic spin modes and spin-jam states in a framework that bridges experiments and theory.