The effects of phase damping,averagephoton number,and different atomic original states on the entanglement have been investigated.

Considering the larger detuning approximation and the effect of phase damping of cavity field,we have studied the time evolution of the linear entropies for the atom-field system,the field and the atom in the system of a cascade three-level atom interacting with a two-mode field.

The results show the the existence of cavity phase damping leads to the phenomenon that the linear entropy of the system is larger than zero except the initial time and independent of the atomic initail preparation.

The effects of the mean photon number of the filed and the phase damping on the dynamical behaviour in the system are discussed.

The influences of phase damping and the mean photon munber of the field on the distance between density opertors are discussed .

The effects of atomic initial state,the mean photon number of the filed and the phase damping on the dynamical behaviour in the Jaynes-Cummings model are discussed.

In this paper, the control of the atomic spontaneous emission is discussed by using the relative phase difference of the polychromatic field and certain results are obtained.