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Hauptverfasser: Quillen, Alice C., Miakhel, Abobakar Sediq
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2510.20581
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author Quillen, Alice C.
Miakhel, Abobakar Sediq
author_facet Quillen, Alice C.
Miakhel, Abobakar Sediq
contents We explore using an ergodic Floquet quantum system on a torus to generate pseudo-random unitary operators. We choose a regime of the perturbed Harper model with strong perturbations and perturbation frequency exceeding the libration frequency to ensure that the system has an ergodic region that covers phase space and lacks resonant substructure. We generate a sample of unitary operators in a finite dimensional space by computing Floquet propagators from a distribution of its control parameters. To compare the distribution of unitaries to that of a Haar-random distribution, we compute k-frame potentials from samples of numerically generated unitaries. We find that uniform distributions of 4 control parameters can generate an approximate 3-design. Distributions of fewer control parameters are required to create an approximate 3-design if the Floquet system parameters drift.
format Preprint
id arxiv_https___arxiv_org_abs_2510_20581
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Generating pseudo-random unitaries with a Floquet driven chaotic quantum system
Quillen, Alice C.
Miakhel, Abobakar Sediq
Quantum Physics
We explore using an ergodic Floquet quantum system on a torus to generate pseudo-random unitary operators. We choose a regime of the perturbed Harper model with strong perturbations and perturbation frequency exceeding the libration frequency to ensure that the system has an ergodic region that covers phase space and lacks resonant substructure. We generate a sample of unitary operators in a finite dimensional space by computing Floquet propagators from a distribution of its control parameters. To compare the distribution of unitaries to that of a Haar-random distribution, we compute k-frame potentials from samples of numerically generated unitaries. We find that uniform distributions of 4 control parameters can generate an approximate 3-design. Distributions of fewer control parameters are required to create an approximate 3-design if the Floquet system parameters drift.
title Generating pseudo-random unitaries with a Floquet driven chaotic quantum system
topic Quantum Physics
url https://arxiv.org/abs/2510.20581