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MON: Monday Contributed Sessions

MON 3: Many-Body Quantum Dynamics I

MON 3.5: Vortrag

Montag, 8. September 2025, 15:15–15:30, ZHG003

More global randomness from less random local gates — •Ryotaro Suzuki¹, Hosho Katsura², Yosuke Mitsuhashi², Tomohiro Soejima³, Jens Eisert¹, and Nobuyuki Yoshioka² — ¹Freie Universität Berlin, Berlin, Germany — ²The University of Tokyo, Tokyo , Japan — ³Harvard University, Cambridge, USA

Random circuits giving rise to unitary designs are key tools in quantum information science and many-body physics. In this work, we investigate a class of random quantum circuits with a specific gate structure. Within this framework, we prove that one-dimensional structured random circuits with non-Haar random local gates can exhibit substantially more global randomness compared to Haar random circuits with the same underlying circuit architecture. In particular, we derive all the exact eigenvalues and eigenvectors of the second-moment operators for these structured random circuits under a solvable condition, by establishing a link to the Kitaev chain, and show that their spectral gaps can exceed those of Haar random circuits. Our findings have applications in improving circuit depth bounds for randomized benchmarking and the generation of approximate unitary 2designs from shallow random circuits.

Keywords: Quantum random circuits; Unitary design; Free fermion; Exactly solvable models; Quantum randomness