Quasiparticle tunneling at an odd-denominator fractional quantum Hall state
ORAL
Abstract
In the fractional quantum Hall (FQH) state, the effective charge and interaction parameter of quasiparticles can be extracted through weak tunneling theory [1]. Weak tunneling theory has been applied in the even-denominator 5/2 FQH state's edge-current-tunneling to search for the non-Abelian statistics [2,3,4,5], but weak tunneling theory has not been quantitatively verified in the simpler odd-denominator Laughlin FQH state with similar configurations. We measured edge-current-tunneling within a quantum point contact at the 5/3 FQH state, and the interaction parameter is close to the theoretical prediction 1/3. [1] Phys. Rev. B \textbf{44}, 5708 (1991). [2] Science \textbf{320}, 899 (2008). [3] Phys. Rev. B \textbf{85}, 165321 (2012). [4] Phys. Rev. B \textbf{90}, 075403 (2014). [5] PNAS \textbf{113}, 12386 (2016).
*The work at PKU was funded by NBRPC and NSFC. The work at Princeton was funded by the Gordon and Betty Moore Foundation through the EPiQS initiative Grant GBMF4420, by the National Science Foundation MRSEC Grant DMR-1420541, and by the Keck Foundation.
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