Impurity-induced non-unitary criticality
Abstract
Quantum impurities give rise to rich physical phenomena, with some exhibiting critical behavior described by conformal field theories (CFTs) in the low-energy limit. In parallel, party-time (PT) symmetric non-Hermitian systems host exceptional points (EPs) at criticality, leading to exotic features governed by non-unitary CFTs. Here, we establish a connection between non-Hermitian impurities and CFTs by demonstrating that the critical properties of a (1+1)-dimensional free-fermion chain with central charge c=1 can be drastically altered by the presence of a local non-Hermitian impurity. Through a systematic analysis of entanglement/R\'enyi entropy, the finite-size scaling of the many-body spectrum, and fidelity susceptibility, we identify that this impurity-induced non-Hermitian criticality is characterized by a non-unitary CFT with central charge c=-2. Furthermore, we find that these non-unitary critical properties exhibit strong sensitivity to boundary conditions.
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