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The authors investigate here a sampling-based optimization scheme for finite projected entangled pair states (PEPS), uncovering an entanglement phase transition in random PEPS that corresponds to a computational complexity shift in tensor network contractions, and extend the complexity analysis to physically relevant states. The method is applied to challenging systems, including a chiral spin liquid and Rydberg atom arrays with long-range interactions, demonstrating its ability to model state-of-the-art cold atom experiments.
Puente et al. (Mon,) studied this question.
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