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Autori principali: Li, Tingting, Zhao, Yiming, Wang, Yong, Liu, Yanping, Miao, Yazhuang, Zhao, Xiaolong
Natura: Preprint
Pubblicazione: 2024
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Accesso online:https://arxiv.org/abs/2411.15841
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author Li, Tingting
Zhao, Yiming
Wang, Yong
Liu, Yanping
Miao, Yazhuang
Zhao, Xiaolong
author_facet Li, Tingting
Zhao, Yiming
Wang, Yong
Liu, Yanping
Miao, Yazhuang
Zhao, Xiaolong
contents A control scheme is proposed that leverages reinforcement learning to enhance entanglement by modulating the two-photon-driven amplitude in a Rabi model. The quantum phase diagram versus the amplitude of the two-photon process and the coupling between the cavity field and the atom in the Rabi model, is indicated by the energy spectrum of the hybrid system, the witness of entanglement, second order correlation, and negativity of Wigner function. From a dynamical perspective, the behavior of entanglement can reflect the phase transition and the reinforcement learning agent is employed to produce temporal sequences of control pulses to enhance the entanglement in the presence of dissipation. The entanglement can be enhanced in different parameter regimes and the control scheme exhibits robustness against dissipation. The replaceability of the controlled system and the reinforcement learning module demonstrates the generalization of this scheme. This research paves the way of positively enhancing quantum resources in non-equilibrium systems.
format Preprint
id arxiv_https___arxiv_org_abs_2411_15841
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Reinforcement Learning Enhancing Entanglement for Two-Photon-Driven Rabi Model
Li, Tingting
Zhao, Yiming
Wang, Yong
Liu, Yanping
Miao, Yazhuang
Zhao, Xiaolong
Quantum Physics
A control scheme is proposed that leverages reinforcement learning to enhance entanglement by modulating the two-photon-driven amplitude in a Rabi model. The quantum phase diagram versus the amplitude of the two-photon process and the coupling between the cavity field and the atom in the Rabi model, is indicated by the energy spectrum of the hybrid system, the witness of entanglement, second order correlation, and negativity of Wigner function. From a dynamical perspective, the behavior of entanglement can reflect the phase transition and the reinforcement learning agent is employed to produce temporal sequences of control pulses to enhance the entanglement in the presence of dissipation. The entanglement can be enhanced in different parameter regimes and the control scheme exhibits robustness against dissipation. The replaceability of the controlled system and the reinforcement learning module demonstrates the generalization of this scheme. This research paves the way of positively enhancing quantum resources in non-equilibrium systems.
title Reinforcement Learning Enhancing Entanglement for Two-Photon-Driven Rabi Model
topic Quantum Physics
url https://arxiv.org/abs/2411.15841