Entanglement protection of classically driven qubits in a lossy cavity

Anno: 2021

Autori: Nourmandipour A., Vafafard A., MortezapourA., Franzosi R.

Affiliazione autori: Department of Physics, Sirjan University of Technology, Sirjan, 7813733385, Iran; QSTAR & CNR – Istituto Nazionale di Ottica, Largo Enrico Fermi 2, Firenze, 50125, Italy; Department of Physics, University of Guilan, P. O. Box 41335-1914, Rasht, Iran

Abstract: Quantum technologies able to manipulating single quantum systems, are presently developing. Among the dowries of the quantum realm, entanglement is one of the basic resources for the novel quantum revolution. Within this context, one is faced with the problem of protecting the entanglement when a system state is manipulated. In this paper, we investigate the effect of the classical driving field on the generation entanglement between two qubits interacting with a bosonic environment. We discuss the effect of the classical field on the generation of entanglement between two (different) qubits and the conditions under which it has a constructive role in protecting the initial- state entanglement from decay induced by its environment. In particular, in the case of similar qubits, we locate a stationary sub-space of the system Hilbert space, characterized by states non depending on the environment properties as well as on the classical driving-field. Thus, we are able to determine the conditions to achieve maximally entangled stationary states after a transient interaction with
the environment. We show that, overall, the classical driving field has a constructive role for the entanglement protection in the strong coupling regime. Also, we illustrate that a factorable initial- state can be driven in an entangled state and, even, in an entangled steady-state after the interaction with the environment.

Giornale/Rivista: SCIENTIFIC REPORTS

Volume: 11 (1)      Da Pagina: 16259  A: 16259-13

Maggiori informazioni: A.N., A.V. and R.F. acknowledge support by the QuantERA ERA-NET Co-fund 731473 (Project Q-CLOCKS). R. F. acknowledges support by National Group of Mathematical Physics (GNFM-INdAM).
Parole chiavi: Quantum entanglement, Atoms cavity dynamics
DOI: 10.1038/s41598-021-95623-1

Citazioni: 16
dati da “WEB OF SCIENCE” (of Thomson Reuters) aggiornati al: 2024-03-24
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