One-shot trajectory learning of open
quantum systems dynamics

ARIF ULLAH; Pavlo O. Dral

doi:10.26434/chemrxiv-2022-gwvg4

Theoretical and Computational Chemistry

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One-shot trajectory learning of open quantum systems dynamics

27 April 2022, Version 1

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Abstract

Nonadiabatic quantum dynamics are important for understanding lightharvesting processes, but their propagation with tradition methods can be rather expensive. Here we present a one-short trajectory learning approach that allows to directly make ultra-fast prediction of the entire trajectory for a new set of such simulation parameters as temperature and reorganization energy. The whole 2.5 ps long propagation takes 50 milliseconds as we demonstrate on the comparatively large quantum system, the Fenna–Matthews–Olsen (FMO) complex. Our approach also significantly reduces time and memory requirements for training.

Keywords

open quantum systems

FMO complex

excitation energy transfer

multi-output machine learning

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The goal of research is accelerating and improving computational chemistry with artificial intelligence / machine learning.

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Version History

Jun 09, 2022 Version 2

Apr 27, 2022 Version 1

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The content is available under CC BY 4.0

DOI

10.26434/chemrxiv-2022-gwvg4

Funding

National Natural Science Foundation of China

22003051

Fundamental Research Funds for the Central Universities

20720210092

Author’s competing interest statement

The author(s) have declared they have no conflict of interest with regard to this content

Ethics

The author(s) declare that they have sought and gained approval from the relevant ethics committee/IRB for this research and its publication.