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Harnessing Environmental Memory with Reinforcement Learning in Open Quantum Systems

Quantum Physics 2026-01-12 v2

Abstract

Non-Markovian memory effects in open quantum systems provide valuable resources for preserving coherence and enhancing controllability. However, exploiting them requires strategies adapted to history-dependent dynamics. We introduce a reinforcement-learning framework that autonomously learns to amplify information backflow in a driven two-level system coupled to a structured reservoir. Using a reward based on the positive time derivative of the trace distance associated with the Breuer-Laine-Piilo measure, we train PPO and SAC agents and benchmark their performance against gradient-based optimal control theory (OCT). While OCT enhances a single dominant backflow peak, RL policies broaden this revival and activate additional contributions in later memory windows, producing sustained positive trace-distance growth over a longer duration. Consequently, the integrated non-Markovianity achieved by RL substantially exceeds that obtained with OCT. These results demonstrate how long-horizon, model-free learning naturally uncovers distributed-backflow strategies and highlight the potential of reinforcement learning for engineering memory effects in open quantum systems.

Keywords

Cite

@article{arxiv.2601.01252,
  title  = {Harnessing Environmental Memory with Reinforcement Learning in Open Quantum Systems},
  author = {Safae Gaidi and Abdallah Slaoui and Mohammed EL Falaki and Amine Jaouadi},
  journal= {arXiv preprint arXiv:2601.01252},
  year   = {2026}
}

Comments

13 pages, 8 figures

R2 v1 2026-07-01T08:49:27.777Z