Abstract
Thermal conductance has emerged as a powerful probe of topological order in the quantum Hall effect and beyond. The interpretation of experiments crucially depends on the ratio of the sample size and the equilibration length, on which energy exchange among contrapropagating chiral modes becomes significant. We show that at low temperatures the equilibration length diverges as for almost all Abelian and non-Abelian topological orders. A faster divergence is present on the edges of the non-Abelian PH-Pfaffian and negative-flux Read-Rezayi liquids. We address experimental consequences of the and laws in a sample, shorter than the equilibration length.
- Received 28 March 2020
- Accepted 16 June 2020
DOI:https://doi.org/10.1103/PhysRevLett.125.016801
© 2020 American Physical Society