UV-IR transmutation for hybrid realizations of Zk parafermion systems

Abstract

Recent experiments brought Majorana particles closer to reality and raised interest in realizing Zk parafermions for general value of k in hybrid structures. Of particular interest is the prospect of realizing a two dimensional system with the edge states described by Zk parafermion conformal field theory (CFT) by coupling one dimensional hybrid systems. However in order to understand the effective perturbation due to local inter-wire coupling, it is crucial to relate short distance ultra-violet (UV) degrees of freedom to primary fields of the CFT describing long distance infra-red (IR) physics. Here we consider two recent proposals for realizing a one dimensional system described by Zk parafermion CFT upon tuning to quantum critical points: a parafermion chain and a pair of =2/k quantum Hall chiral edge states under uniform backscattering and pairing, where the latter is represented by self-dual sine-Gordon model. We explicitly derive the relation between distinct UV degrees of freedom relevant for each proposals and the primary fields of Z3 parafermion CFT. Our results point to a marked difference in the effect of local coupling between wires represented by each proposals, regarding robustness of the edge states in the resulting two dimensional systems.