Isolating Kondo anyons for topological quantum computation
Yashar Komijani
Abstract
We propose to use residual anyons of the overscreened Kondo effect for topological quantum computation. A superconducting proximity gap of $\mathrm{\ensuremath{\Delta}}<{T}_{K}$ can be utilized to isolate the anyon from the continuum of excitations and stabilize the nontrivial fixed point. We use weak-coupling renormalization group, dynamical large-N technique, and bosonization to show that the residual entropy of multichannel Kondo impurities survives in a superconductor. We find that while (in agreement with recent numerical studies) the nontrivial fixed point is unstable against intrachannel pairing, it is robust in the presence of a finite interchannel pairing. Based on this observation, we suggest a superconducting charge Kondo setup for isolating and detecting the Majorana fermion in the two-channel Kondo system.