QUANTUM ENTANGLEMENT IN THE SYSTEM OF ATOMS IN BELL STATE INTERACTING WITH THE TWO-MODE ODD{EVEN ENTANGLED COHERENT FIELD

摘要

We studied the entanglement properties of the system consisting of two atoms in Bell states interacting with the two-mode odd-even entangled coherent field by utilizing the complete quantum theory. The influences of the initial Bell state of the atoms, the intensity of field, the coupling strength of interaction between atoms and the initial degree of the entanglement between the two-mode fields on the atomic entropy and on negativity are discussed by using numerical calculations. It turns out that the two atoms can keep their initial maximal entangled state while the two-atom and the two-mode field keep their initial disentangled state if the two atoms are initially in j-11i. Therefore, for the initial atomic state j-00i or j-01i, the increasing of the field intensity can be a help to prepare the atom-ˉeld entanglement, and for j-10i, it is beneflcial for the atom-atom entanglement. Meanwhile, for the initial atomic state j-10i and j-01i, strong coupling strength of interaction between atoms is beneflcial for the atom-atom entanglement, but for j-00i, it can be helpful for the atom-field entanglement.