Theory of disorder-induced half-integer thermal Hall conductance
· Invited
Abstract
Thermal Hall conductance in the half-filled first Landau level was recently measured to take the quantized non-integer value kappa=5/2, which indicates a non-Abelian phase of matter. Such exotic states have long been predicted to arise at this filling factor, but the measured value disagrees with numerical studies, which predict kappa=3/2 or 7/2. I will briefly review the contradictory experimental and theoretical findings and discuss how they may be reconciled. Specifically, I will describe a possible resolution based on disorder-induced formation of mesoscopic puddles. Interactions between these puddles can generate a coherent macroscopic state that exhibits a plateau with quantized kappa=5/2 and non-Abelian quasiparticles that are distinct from those of the microscopic puddles.
*We gratefully acknowledge support by the Israel Science Foundation (D.F.M., Y.O., A.S., M.H.); the Minerva foundation with funding from the Federal German Ministry for Education and Research (D.F.M. and M.H.); the Binational Science Foundation (D.F.M. and Y.O.); the European Research Council under the European Community’s Seventh Framework Program (FP7/2007-2013)/ERC Grant Agreement No. 339070 (M.H.) and Grant Agreement No. 340210 (Y.O. and A.S.); Microsoft Station Q (A.S.); the DFG (CRC/Transregio 183, EI 519/7-1) (Y.O. and A.S.); and the German Israeli Foundation, Grant No. I-1241-303.10/2014 (M.H.).
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Presenters
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David Mross
- Weizmann Institute of Science