Related papers: Entanglement Dynamics of Noisy Random Circuits

Entanglement Dynamics of Noisy Random Circuits

URL: http://arxiv.org/abs/2203.16555v2
Date: Wed, 25 Jan 2023 20:44:00 GMT
Title: Entanglement Dynamics of Noisy Random Circuits
Authors: Zhi Li, Shengqi Sang, Timothy H. Hsieh
Abstract summary: We study the process by which open quantum systems thermalize with an environment. We consider a qudit chain evolving under local random unitaries and local depolarization channels.
Score: 3.245401968358883
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: The process by which open quantum systems thermalize with an environment is both of fundamental interest and relevant to noisy quantum devices. As a minimal model of this process, we consider a qudit chain evolving under local random unitaries and local depolarization channels. After mapping to a statistical mechanics model, the depolarization (noise) acts like a symmetry-breaking field, and we argue that it causes the system to thermalize within a timescale independent of system size. We show that various bipartite entanglement measures -- mutual information, operator entanglement, and entanglement negativity -- grow at a speed proportional to the size of the bipartition boundary. As a result, these entanglement measures obey an area law: Their maximal value during the dynamics is bounded by the boundary instead of the volume. In contrast, if the depolarization only acts at the system boundary, then the maximum value of the entanglement measures obeys a volume law. We complement our analysis with scalable simulations involving Clifford gates, for both one- and two-dimensional systems.

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