Identities relate density-density correlators across a spin multiplet, allowing energies of many fractional quantum Hall states to be obtained from the highest-weight state alone.
Title resolution pending
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
fields
cond-mat.str-el 3years
2026 3verdicts
UNVERDICTED 3representative citing papers
Interactions between hard-core anyons on a 1D lattice at infinite temperature induce pronounced left-right asymmetry in single-particle Green's functions for fractional statistics, strongest at intermediate coupling, while density-density correlations recover XXZ transport behaviors independent of θ
Numerical tests on bosonic Laughlin and Moore-Read states show that modular Hamiltonian methods recover expected topological quantities only when system sizes are large enough relative to the correlation length.
citing papers explorer
-
Relations between density-density correlators of states in the maximal spin multiplet
Identities relate density-density correlators across a spin multiplet, allowing energies of many fractional quantum Hall states to be obtained from the highest-weight state alone.
-
Interaction-induced asymmetry in infinite-temperature dynamical correlations of hard-core anyons
Interactions between hard-core anyons on a 1D lattice at infinite temperature induce pronounced left-right asymmetry in single-particle Green's functions for fractional statistics, strongest at intermediate coupling, while density-density correlations recover XXZ transport behaviors independent of θ
-
Testing the robustness of topological quantities evaluated from the modular Hamiltonian for a given wavefunction
Numerical tests on bosonic Laughlin and Moore-Read states show that modular Hamiltonian methods recover expected topological quantities only when system sizes are large enough relative to the correlation length.