Maple-leaf lattice realizes U(1) Dirac spin liquid with N_f=12, where five symmetry-trivial charge-one monopoles may be dynamically irrelevant, providing a large-flavor platform to test compact QED3 stability.
Wen, Quantum orders and symmetric spin liquids, Phys
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A Z2 x Z2 gauge theory on a 1D chain produces an LSM theorem in the Gauss law subspace via a U(1) symmetry from the constraint, forbidding trivial gapped states and identifying a gapless Dirac fermion point with r^{-2/9} correlations.
In the highly frustrated disordered spin-1/2 J1-J2 Heisenberg model, the ground state is a valence bond glass whose collective singlet excitations yield a field-insensitive specific-heat anomaly.
KBa3Ca4Cu3V7O28 realizes a gapless 3D bipartite quantum spin liquid stabilized by trimer-amplified anisotropy from weak microscopic exchange.
Numerical simulations of the dynamical dimer structure factor on the triangular Heisenberg model provide support for a gapless U(1) Dirac quantum spin liquid with gapless singlet monopole excitations at X = K/2 momenta.
Renormalized mean-field study of an effective triangular-lattice Hubbard model for twisted WSe2 finds a chiral d+id superconducting phase at half filling stabilized by moderate Coulomb repulsion that preserves mobile doublons and holes.
The quadrupolar Kitaev model on the honeycomb lattice shows an extensively degenerate classical manifold and supports gapped or gapless quantum-disordered states via Majorana parton constructions distinguished by symmetry implementations.
citing papers explorer
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Large-flavor route to a stable U(1) Dirac spin liquid on the maple-leaf lattice
Maple-leaf lattice realizes U(1) Dirac spin liquid with N_f=12, where five symmetry-trivial charge-one monopoles may be dynamically irrelevant, providing a large-flavor platform to test compact QED3 stability.
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Lieb-Schultz-Mattis theorem from gauge constraints
A Z2 x Z2 gauge theory on a 1D chain produces an LSM theorem in the Gauss law subspace via a U(1) symmetry from the constraint, forbidding trivial gapped states and identifying a gapless Dirac fermion point with r^{-2/9} correlations.
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Valence Bond Glass and Glassy Spin Liquid in Disordered Frustrated Magnets
In the highly frustrated disordered spin-1/2 J1-J2 Heisenberg model, the ground state is a valence bond glass whose collective singlet excitations yield a field-insensitive specific-heat anomaly.
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Quantum spin liquid on a 3D bipartite lattice of spin trimers stabilized by enhanced effective anisotropy
KBa3Ca4Cu3V7O28 realizes a gapless 3D bipartite quantum spin liquid stabilized by trimer-amplified anisotropy from weak microscopic exchange.
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Dynamical dimer structure factor of the triangular $S=1/2$ Heisenberg antiferromagnet
Numerical simulations of the dynamical dimer structure factor on the triangular Heisenberg model provide support for a gapless U(1) Dirac quantum spin liquid with gapless singlet monopole excitations at X = K/2 momenta.
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Gossamer Superconductivity in Moir\'e WSe$_2$ Bilayer
Renormalized mean-field study of an effective triangular-lattice Hubbard model for twisted WSe2 finds a chiral d+id superconducting phase at half filling stabilized by moderate Coulomb repulsion that preserves mobile doublons and holes.
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Exchange-frustrated quadrupoles on the honeycomb lattice: Flavor-wave spectra, classical degeneracies and parton constructions
The quadrupolar Kitaev model on the honeycomb lattice shows an extensively degenerate classical manifold and supports gapped or gapless quantum-disordered states via Majorana parton constructions distinguished by symmetry implementations.