Enhanced quantum synchronization of a driven qubit under non-Markovian dynamics

• URL: http://arxiv.org/abs/2311.05664v2
• Date: Thu, 22 Feb 2024 10:07:28 GMT
• Title: Enhanced quantum synchronization of a driven qubit under non-Markovian dynamics
• Authors: Po-Wen Chen, Chandrashekar Radhakrishnan, Md. Manirul Ali
• Abstract summary: We investigate quantum phase synchronization of a two-level system driven by a semiclassical laser field. In the Markov regime, the phase preference of the qubit goes away in the long time limit, whereas the long-time phase localization persists in the non-Markovian regime. Various system-environment parameters determine the synchronization regions and the qubit phase synchronization is shown to be enhanced in the non-Markov regime.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Synchronizing a few-level quantum system is of fundamental importance to the understanding of synchronization in the deep quantum regime. We investigate quantum phase synchronization of a two-level system (qubit) driven by a semiclassical laser field, in the presence of a general non-Markovian dissipative environment. The phase preference of the qubit is demonstrated through Husimi Q-function, and the existence of a limit cycle is also shown in our system. Synchronization of the qubit is quantified using the shifted phase distribution. The signature of quantum phase synchronization viz the Arnold tongue is obtained from the maximal value of the shifted phase distribution. Two distinct types of qubit dynamics is considered depending on the reservoir correlation time being very short and a situation when bath correlation time is finite. In the Markov regime of the environment, the phase preference of the qubit goes away in the long time limit, whereas the long-time phase localization persists in the non-Markovian regime. We also plot the maximum of the shifted phase distribution in two ways: (a) by varying the detuning and laser driving strength, and (b) by varying the system-bath coupling and laser driving strength. Various system-environment parameters determine the synchronization regions and the qubit phase synchronization is shown to be enhanced in the non-Markov regime.

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