Measurement-induced phase transition for free fermions above one dimension

Abstract

A theory of the measurement-induced entanglement phase transition for free-fermion models in d>1 dimensions is developed. The critical point separates a gapless phase with d-1 scaling of the second cumulant of the particle number and of the entanglement entropy and an area-law phase with d-1 scaling, where is a size of the subsystem. The problem is mapped onto an SU(R) replica non-linear sigma model in d+1 dimensions, with R 1. Using renormalization-group analysis, we calculate critical indices in one-loop approximation justified for d = 1+ ε with ε 1. Further, we carry out a numerical study of the transition for a d=2 model on a square lattice, determine numerically the critical point, and estimate the critical index of the correlation length, ≈ 1.4.