DISSIPAÇÃO EM MODOS ACOPLADOS
AUTOR(ES)
REGIANE APARECIDA NUNES DE SIQUEIRA
DATA DE PUBLICAÇÃO
2007
RESUMO
The implementation of processes of Quantum Computation as well as the transmission and quantum information control in realistic physical systems, must take in account the effects of the coupling of the systems with the environment, represented by thermal reservoirs. In this work it is considered the study of the effects of the environment in the quantum properties of each modes in a system of weakly coupled bosonics ones (the electromagnetic modes in the coupled cavities). It is applied an alternative method, based on effective non Hermitian Quadratic Hamiltonian, in order to understand how to determine the time evolution of the Wigner function of the system under study; the technique of Wigner funtion propagator and a specific solution is presented. In addition, the time evolution of the non symmetric second moments is exactly determined for the special case of initial general Gaussian states for both modes, in the presence of thermal reservoir. It is analyzed as the squeezing and the purity of each mode as well as the entanglement among them evolve in time under dissipation, compared to the case of reservoir absence. For this purpose, it is briey considered some techniques applied the study of the quantum information and measures of quantum correlations for quantum multipartite systems, here only applied to a bipartite system. This work is concluded with some numerical analysis of the quantum properties in terms of initial state parameters and gives some future perspective in order to generalize our results.
ASSUNTO(S)
quantum correlations dissipação entanglement squeezing emaranhamento fisica dissipation compressão, correlações quânticas
