Related papers: Energy Transport Induced by Transition from Weak to Strong Coupling Regime Between Non-Hermitian systems

Energy Transport Induced by Transition from Weak to Strong Coupling Regime Between Non-Hermitian systems

URL: http://arxiv.org/abs/2211.08484v1
Date: Tue, 15 Nov 2022 20:21:38 GMT
Title: Energy Transport Induced by Transition from Weak to Strong Coupling Regime Between Non-Hermitian systems
Authors: I.V. Vovcenko, A.A. Zyablovsky, A.A. Pukhov, E.S. Andrianov
Abstract summary: We use a partial-secular approach for the description of an open quantum system. We show that near the transition point enhancement of energy transport between the system and reservoirs takes place. We show that both in the case of non-zero detuning when there is no clear transition point from the weak to strong coupling regime.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: Recently, strong coupling between non-Hermitian physical systems of different nature is widely investigated due to it endows them with new properties. In this work, we investigate the energy transport between strongly coupled systems. We use a partial-secular approach for the description of an open quantum system to investigate the system dynamics during the transition from a weak to a strong coupling regime with an increase of coupling between subsystems. On the example of strongly coupled two-level atoms, we show that near the transition point enhancement of energy transport between the system and reservoirs takes place. This manifests in the fact that energy flow normalized to the coupling constant reaches the maximum both in the cases of zero and non-zero frequency detuning. We show that maximization of normalized energy flow can be used for the determination of the transition to the strong coupling regime in the case of non-zero detuning when there is no clear transition point from the weak to strong coupling regime. The suppression of the energy flow at high relaxation is demonstrated.

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