Autores
Medina Armendariz Miguel Alejandro
Sun Guohua
Dong ShiHai
Título Exploring entanglement dynamics in an optomechanical cavity with a type-V qutrit and quantized two-mode field
Tipo Revista
Sub-tipo JCR
Descripción Physica A: Statistical Mechanics and its Applications
Resumen In this work, the main objective is to measure the degree of interaction of a type-V qutrit with a two-mode quantized field in an optomechanical cavity. To achieve this objective, we first deduce the Hamiltonian in the interaction picture to identify the oscillatory terms. Using the Coarse-Grained Method (CGM), we obtain the effective Hamiltonian analytically. By selecting initial conditions for the atom, the two-mode field, and the moving mirror, we can determine the state vector of the entire system through a first-order approximation of the effective Hamiltonian. With this information, we proceed to solve the Schrödinger equation, generating a coupled set of differential equations that is solved numerically based on the initial conditions. In this context, the atomic von Neumann entropy allows us to obtain the temporal evolution of the degree of entanglement of the qutrit in the cavity and the atomic population inversion. The results indicate that entanglement in this tripartite system, composed of the qutrit and the mirror-field subsystems, as well as the population inversion, can be manipulated by the initial state conditions of the system, the qutrit-field and mirror-field coupling coefficients, the pump field, and the dissipation rates of the two-mode field and the movable mirror, respectively. © 2024 Elsevier B.V.
Observaciones DOI 10.1016/j.physa.2024.129514
Lugar Amsterdam
País Paises Bajos
No. de páginas Article number 129514
Vol. / Cap. 635
Inicio 2024-02-01
Fin
ISBN/ISSN