Subsystem Trace-Distances of Two Random States

Abstract

We study two-state discrimination in chaotic quantum systems. Assuming that one of two N-qubit pure states has been randomly selected, the probability to correctly identify the selected state from an optimally chosen experiment involving a subset of N-NB qubits is given by the trace-distance of the states, with NB qubits partially traced out. In the thermodynamic limit N∞, the average subsystem trace-distance for random pure states makes a sharp, first order transition from unity to zero at f=1/2, as the fraction f=NB/N of unmeasured qubits is increased. We analytically calculate the corresponding crossover for finite numbers N of qubits, study how it is affected by the presence of local conservation laws, and test our predictions against exact diagonalization of models for many-body chaos.