Related papers: Entanglement and absorbing state transitions in $(d+1)$-dimensional stabilizer circuits

Entanglement and absorbing state transitions in $(d+1)$-dimensional stabilizer circuits

URL: http://arxiv.org/abs/2308.13384v2
Date: Thu, 22 Feb 2024 13:12:54 GMT
Title: Entanglement and absorbing state transitions in $(d+1)$-dimensional stabilizer circuits
Authors: Piotr Sierant and Xhek Turkeshi
Abstract summary: Competition between unitary dynamics and measurements leads to an entanglement phase transition. The feedback steers the dynamics towards an absorbing state, yielding an absorbing state phase transition.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We study the influence of feedback operations on the dynamics of $(d+1)$-dimensional monitored random quantum circuit. Competition between unitary dynamics and measurements leads to an entanglement phase transition, while the feedback steers the dynamics towards an absorbing state, yielding an absorbing state phase transition. Building on previous results in one spatial dimension [Phys. Rev. Lett. 130, 120402 (2023)], we discuss the interplay between the two types of transitions for $d \ge 2$ in the presence of (i) short-range feedback operations or (ii) additional global control operations. In both cases, the absorbing state transition belongs to the $d$-dimensional directed percolation universality class. In contrast, the entanglement transition depends on the feedback operation type and reveals the dynamics' inequivalent features. The entanglement and absorbing state phase transition remain separated for short-range feedback operations. When global control operations are applied, we find the two critical points coinciding; nevertheless, the universality class may still differ, depending on the choice of the control operation.

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