Derives exact finite-size parity-anomaly transport for chiral spin liquids, proving strictly exponential corrections and a precise spinon-Chern to spin-Hall map, validated by parton bands and DMRG on kagome lattice.
Phase of the fermion determinant in QED_3 using a gauge invariant lattice regularization
1 Pith paper cite this work. Polarity classification is still indexing.
abstract
We use canonical formalism to study the fermion determinant in different three dimensional abelian gauge field backgrounds that contain non-zero magnetic and electric flux in order to understand the non-perturbative contributions to the parity-odd and parity-even parts of the phase. We show that a certain phase associated with free fermion propagation along a closed path in a momentum torus is responsible for the parity anomaly in a background with non-zero electric flux. We consider perturbations around backgrounds with non-zero magnetic flux to understand the structure of the parity-breaking perturbative term at finite temperature and mass.
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cond-mat.str-el 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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From Dirac Cones to Semions: An Exact Finite-Size Theory of Parity-Anomaly Transport in Chiral Spin Liquids
Derives exact finite-size parity-anomaly transport for chiral spin liquids, proving strictly exponential corrections and a precise spinon-Chern to spin-Hall map, validated by parton bands and DMRG on kagome lattice.