Lento Nagano, Alexander Miessen, et al.
PRResearch
Quantum circuits with local unitaries offer a platform to explore many-body quantum dynamics in discrete time. Their locality makes them suitable for current processors, but verification at scale is difficult for non-integrable systems. Here we study dual-unitary circuits, which are maximally chaotic yet permit exact analytical solutions for certain correlation functions. Using improved noise-learning and error-mitigation methods, we show that a superconducting quantum processor with 91 qubits is able to accurately simulate these correlators. We then perturb the circuits away from the dual-unitary point and benchmark the dynamics against tensor-network simulations. These results establish error-mitigated digital quantum simulation on pre-fault-tolerant processors as a reliable tool to explore emergent quantum many-body phases.
Lento Nagano, Alexander Miessen, et al.
PRResearch
Mirko Amico, David McKay, et al.
APS March Meeting 2023
Alberto Baiardi, Sebastian Leontica, et al.
APS Global Physics Summit 2026
Thomas Steckmann, Alireza Seif, et al.
APS March Meeting 2024