STS imaging of defect-bound quasiparticles in graphene reveals spectroscopic fingerprints of anyons at fractional quantum Hall fillings, with a three-anyon state matching data at ν=5/3.
E.et al.Controlled localization of anyons in a graphene quantum hall inter- ferometer.arXiv preprint arXiv:2603.11182(2026)
4 Pith papers cite this work. Polarity classification is still indexing.
fields
cond-mat.mes-hall 4years
2026 4verdicts
UNVERDICTED 4representative citing papers
Charging energy in a quantum Hall cavity is non-monotonically modulated by magnetic field due to dynamic screening changes in the constrictions.
Numerical DMRG calculations show that gate screening binds like-charged anyons into molecules in Laughlin, Jain, and anti-Pfaffian fractional quantum Hall states.
A new protocol for layer-resolved transport measurements that extracts anyon statistics from charge distribution across layers in multi-component topological states.
citing papers explorer
-
Real-space Imaging of Quantum Hall Quasiparticles
STS imaging of defect-bound quasiparticles in graphene reveals spectroscopic fingerprints of anyons at fractional quantum Hall fillings, with a three-anyon state matching data at ν=5/3.
-
Constriction-induced modulation of charging energy in a quantum Hall cavity
Charging energy in a quantum Hall cavity is non-monotonically modulated by magnetic field due to dynamic screening changes in the constrictions.
-
Anyon molecules in fractional quantum Hall states
Numerical DMRG calculations show that gate screening binds like-charged anyons into molecules in Laughlin, Jain, and anti-Pfaffian fractional quantum Hall states.
-
Probing bilayer topological order with layer-resolved transport
A new protocol for layer-resolved transport measurements that extracts anyon statistics from charge distribution across layers in multi-component topological states.