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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Chiral U(1) and Z2 spin liquids on the pyrochlore lattice are classified by symmetry and flux, with correlation signatures distinguishing emergent gauge-field dominance via pinch-point features in the spin structure factor.
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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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Classification and correlation signatures of chiral spin liquids on the pyrochlore lattice
Chiral U(1) and Z2 spin liquids on the pyrochlore lattice are classified by symmetry and flux, with correlation signatures distinguishing emergent gauge-field dominance via pinch-point features in the spin structure factor.