Phase transition in Stabilizer Entropy and efficient purity estimation
Abstract
Stabilizer Entropy (SE) quantifies the spread of a state in the basis of Pauli operators. It is a computationally tractable measure of non-stabilizerness and thus a useful resource for quantum computation. SE can be moved around a quantum system, effectively purifying a subsystem from its complex features. We show that there is a phase transition in the residual subsystem SE as a function of the density of non-Clifford resources. This phase transition has important operational consequences: it marks the onset of a subsystem purity estimation protocol that requires many queries to a circuit containing non-Clifford gates that prepares the state from a stabilizer state. Then, for , it estimates the purity with polynomial resources and, for highly entangled states, attains an exponential speed-up over the known state-of-the-art algorithms.
Cite
@article{arxiv.2302.07895,
title = {Phase transition in Stabilizer Entropy and efficient purity estimation},
author = {Lorenzo Leone and Salvatore F. E. Oliviero and Gianluca Esposito and Alioscia Hamma},
journal= {arXiv preprint arXiv:2302.07895},
year = {2024}
}