Realizing Unitary k-designs with a Single Quench
Abstract
We present a single-quench protocol that generates unitary k-designs with minimal control. A system first evolves under a random Hamiltonian H1; at a switch time ts ≥ tTh (the Thouless time), it is quenched to an independently drawn H2 from the same ensemble and then evolves under H2. This single quench breaks residual spectral correlations that prevent strictly time-independent chaotic dynamics from forming higher-order designs. The resulting ensemble approaches a unitary k-design using only a single control operation -- far simpler than Brownian schemes with continuously randomized couplings or protocols that apply random quenches at short time intervals. Beyond offering a direct route to Haar-like randomness, the protocol yields an operational, measurement-friendly definition of tTh and provides a quantitative diagnostic of chaoticity. It further enables symmetry-resolved and open-system extensions, circuit-level single-quench analogs, and immediate applications to randomized measurements, benchmarking, and tomography.
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