A loop expansion in the topological heavy fermion model yields quasiparticle lifetimes and a Curie-Weiss flavor susceptibility above the ordering temperature despite strong interactions.
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Thermoelectric and non-reciprocal transport effects are predicted as accessible probes for spin- and valley-polarized states in hybrid Ising superconductor and van der Waals material junctions.
A symmetry indicator framework predicts the Z2 or Chern number of superlattice minibands from the parent material's properties alone, assuming weak potential but valid if gaps stay open.
citing papers explorer
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Controlled Loop Expansion for the Topological Heavy Fermion Model
A loop expansion in the topological heavy fermion model yields quasiparticle lifetimes and a Curie-Weiss flavor susceptibility above the ordering temperature despite strong interactions.
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Detection of spin- and valley-polarized states in van der Waals materials via thermoelectric and non-reciprocal transport
Thermoelectric and non-reciprocal transport effects are predicted as accessible probes for spin- and valley-polarized states in hybrid Ising superconductor and van der Waals material junctions.
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Efficient prediction of topological superlattice bands with spin-orbit coupling
A symmetry indicator framework predicts the Z2 or Chern number of superlattice minibands from the parent material's properties alone, assuming weak potential but valid if gaps stay open.