Related papers: Universality in the Anticoncentration of Chaotic Quantum Circuits

Universality in the Anticoncentration of Chaotic Quantum Circuits

URL: http://arxiv.org/abs/2503.00119v1
Date: Fri, 28 Feb 2025 19:00:26 GMT
Title: Universality in the Anticoncentration of Chaotic Quantum Circuits
Authors: Arman Sauliere, Beatrice Magni, Guglielmo Lami, Xhek Turkeshi, Jacopo De Nardis,
Abstract summary: We establish universal behavior in the anticoncentration properties of random quantum circuits.<n>We compute these corrections through exact calculations on ensembles of random tensor network states.<n>We then identify a framework for generic brickwork circuits, conjecturing the universality of these corrections.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: We establish universal behavior in the anticoncentration properties of random quantum circuits, demonstrating its broad independence from the circuit architecture. Specifically, universality emerges in a certain scaling limit and extends beyond the leading order, incorporating subleading corrections arising from the finite system size $N$. We compute these corrections through exact calculations on ensembles of random tensor network states and corroborate the results with analytical findings in the random phase model. We then identify a heuristic framework for generic brickwork circuits, conjecturing the universality of these corrections. We further support our claim of anticoncentration universality through extensive numerical simulations, capturing the distribution of overlaps for systems up to $N = 64$ qudits and computing collision probabilities for systems up to $N \leq 1024$. Collectively, our results highlight the critical role of finite-size corrections and lead to a thorough understanding of the core phenomenology governing anticoncentration in quantum circuits.

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