Obstructed Cooper pairs in the strong-coupling limit on line-graph lattices have identically vanishing leading-order kinetic energy due to frustration, yielding flat bosonic bands, zero superfluid stiffness, and an exact d-wave RVB spin liquid ground state at quarter filling via mapping to the Rokhs
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Non-interacting charge-e/3 anyons with θ=-π/3 statistics superconduct via a hidden weak-pairing state of three-pocket composite fermions that realizes a chiral f-if superconductor with edge central charge c_-=-1/2.
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Obstructed Cooper pairs in flat band systems - weakly-coherent superfluids and exact spin liquids
Obstructed Cooper pairs in the strong-coupling limit on line-graph lattices have identically vanishing leading-order kinetic energy due to frustration, yielding flat bosonic bands, zero superfluid stiffness, and an exact d-wave RVB spin liquid ground state at quarter filling via mapping to the Rokhs
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Hidden weak-pairing superconductivity of non-interacting anyons obeying $\frac{1}{3}$ statistics
Non-interacting charge-e/3 anyons with θ=-π/3 statistics superconduct via a hidden weak-pairing state of three-pocket composite fermions that realizes a chiral f-if superconductor with edge central charge c_-=-1/2.