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
verdicts
UNVERDICTED 3representative citing papers
Uniaxial strain and atomic reconstruction in MoSe2-WSe2 heterobilayers deterministically form quasi-1D domain walls that confine interlayer excitons, with confinement strength tuned by twist angle and electric field.
A first-frequency-moment constraint on antisymmetric optical conductivity vanishes exactly in zero-field moiré continuum models and equals a magnetic-flux-determined constant in Hofstadter models, implying spectral compensation for anomalous Hall absorption.
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.
-
Control of atomic reconstruction and quasi-1D excitons in strain-engineered moir\'e heterostructures
Uniaxial strain and atomic reconstruction in MoSe2-WSe2 heterobilayers deterministically form quasi-1D domain walls that confine interlayer excitons, with confinement strength tuned by twist angle and electric field.
-
Optical Hall absorption sum rule and spectral compensation in time-reversal-breaking moir\'e and Hofstadter systems
A first-frequency-moment constraint on antisymmetric optical conductivity vanishes exactly in zero-field moiré continuum models and equals a magnetic-flux-determined constant in Hofstadter models, implying spectral compensation for anomalous Hall absorption.