中文摘要：

初始处于纠缠的原子与附加类克尔介质的光腔相互作用,运用共生纠缠的度量方法对原子间的纠缠演化动力学进行研究,分析了腔场粒子数、介质非线性效应及原子与腔场的失谐量对纠缠演化的影响,发现处于腔场真空态下原子间的纠缠作周期性震荡演化,而处在腔场粒子数态下的原子在演化过程中发生纠缠突然死亡现象;在非线性克尔介质作用下,处于腔场粒子数较小范围内（n≤5）的原子间也会产生纠缠突然死亡现象;但随着腔场粒子数的增加纠缠突然死亡现象消失而且一定程度上可以达到纠缠初始值;当腔场处于任意粒子数态时,由于非线性效应的影响,均可抑制纠缠突然死亡现象的发生;当腔场在没有类克尔介质作用时,原子与腔场间的失谐量同样可以避免纠缠突然死亡现象的发生。

英文摘要：

Having investigated entanglement dynamics of initially entangled two atoms by one of entangled two-atom interacting with a cavity-damped Jaynes-Cummings model with a Kerr medium filling the cavity,We find that entanglement sudden death appears high frequency in lower value of number state and the phenomenon of sudden death disappears with the increasing value of number state and can almost reaches initial entanglement state.We also obtain the same result in the situation of nonlinearity and detuning.This helps us avoid the phenomenon of entanglement sudden death happening.