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Auteurs principaux: Gemsheim, Sebastian, Fritzsch, Felix
Format: Preprint
Publié: 2025
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Accès en ligne:https://arxiv.org/abs/2509.01633
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author Gemsheim, Sebastian
Fritzsch, Felix
author_facet Gemsheim, Sebastian
Fritzsch, Felix
contents While quantum simulation is one of the most promising applications of modern quantum devices, accessible simulation times are fundamentally limited by finite coherence times due to omnipresent noise. Based on the ideas of relational dynamics/time and of exchanging time for space resources, we propose an approach to simulating quantum dynamics under general time-dependent Hamiltonians in continuous time, which aims to overcome this limitation by encoding the full dynamics in a single static quantum state. This is achieved by introducing auxiliary qubits, which play the role of a clock, and by tailoring their dynamics and interaction with the original system. As opposed to traditional methods, no short-time propagators, or approximations thereof, are required in our framework. We outline the preparation of a static global state of system and clock via a variational quantum-classical algorithm as well as the sampling of the system's dynamics by performing projective measurements on the clock. Finally, we provide an example of our approach in terms of a driven qubit.
format Preprint
id arxiv_https___arxiv_org_abs_2509_01633
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Sampling Continuous Quantum Dynamics from a Single Static State
Gemsheim, Sebastian
Fritzsch, Felix
Quantum Physics
While quantum simulation is one of the most promising applications of modern quantum devices, accessible simulation times are fundamentally limited by finite coherence times due to omnipresent noise. Based on the ideas of relational dynamics/time and of exchanging time for space resources, we propose an approach to simulating quantum dynamics under general time-dependent Hamiltonians in continuous time, which aims to overcome this limitation by encoding the full dynamics in a single static quantum state. This is achieved by introducing auxiliary qubits, which play the role of a clock, and by tailoring their dynamics and interaction with the original system. As opposed to traditional methods, no short-time propagators, or approximations thereof, are required in our framework. We outline the preparation of a static global state of system and clock via a variational quantum-classical algorithm as well as the sampling of the system's dynamics by performing projective measurements on the clock. Finally, we provide an example of our approach in terms of a driven qubit.
title Sampling Continuous Quantum Dynamics from a Single Static State
topic Quantum Physics
url https://arxiv.org/abs/2509.01633