Thermal transport in chiral conformal theories and hierarchical quantum Hall states

ANDREA CAPPELLI , MARINA HUERTA , GUILLERMO R. ZEMBA

NUCLEAR PHYSICS B

ELSEVIER SCIENCE BV

Lugar: Amsterdam, Holanda; Año: 2002 vol. 636 p. 568 - 582

0550-3213

Chiral conformal field theories are characterized by a ground-state current at finite temperature, that could be observed, e.g. in the edge excitations of the quantum Hall effect. We show that the corresponding thermal conductance is directly proportional to the gravitational anomaly of the conformal theory, upon extending the well-known relation between specific heat and conformal anomaly. The thermal current could signal the elusive neutral edge modes that are expected in the hierarchical Hall states. We then compute the thermal conductance for the Abelian multi-component theory and the W-infinity minimal model, two conformal theories that are good candidates for describing the hierarchical states. Their conductances agree to leading order but differ in the first, universal finite-size correction, that could be used as a selective experimental signature.