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Paper detail

Classical Models of Entanglement in Monitored Random Circuits

The evolution of entanglement entropy in quantum circuits composed of Haar-random gates and projective measurements shows versatile behavior, with connections to phase transitions and complexity theory. We reformulate the problem in terms of a classical Markov process for the dynamics of bipartition purities and establish a probabilistic cellular-automaton algorithm to compute entanglement entropy in monitored random circuits on arbitrary graphs. In one dimension, we further relate the evolution of the entropy to a simple classical spin model that naturally generalizes a two-dimensional lattice percolation problem. We also establish a Markov model for the evolution of the zeroth Rényi entropy and demonstrate that, in one dimension and in the limit of large local dimension, it coincides with the corresponding second-Rényi-entropy model. Finally, we extend the Markovian description to a more general setting that incorporates continuous-time dynamics, defined by stochastic Hamiltonians and weak local measurements continuously monitoring the system.

preprint2020arXivOpen access
Oles ShtankoYaroslav A. KharkovLuis Pedro García-PintosAlexey V. Gorshkov
cond-mat.stat-mechcond-mat.dis-nnquant-ph
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Oles ShtankoYaroslav A. KharkovLuis Pedro García-PintosAlexey V. Gorshkov

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