The entanglement between the two atoms of two separate Jaynes-Commings models is investigated by means of the concurrence. We restrict our attention to two cases, the field frequency varying with time in the forms of sine and rectangle. When the field frequency varies with time in the form of sine, the period and the amplitude of the atom-atom concurrence will decrease as the amplitude of the sine frequency modulation increases. Not only the sine field frequency modulation but also the rectangular field frequency modulation can affect the interaction of the field with atom between resonance and off-resonance. The field frequency modulation can also affect the atom-atom entanglement. The suitable field frequency modulation is favorable for improving, enhancing and stabilizing the degree of the atom-atom entanglement. The suitable field frequency modulation can also prevent the atom-atom entanglement from entanglement sudden death and control it dynamically.%本文研究了频率随时问变化的光场对双J-C模型中原子-原子纠缠的动力学调控,主要讨论了光场频率随时间作正弦变化和脉冲变化两种典型情况下,原子-原子纠缠度随时间的演化特性.当光场频率随时间作正弦变化时.原子-原子纠缠度演化的周期、振幅与光场频率调制的振幅有关,并随着调制振幅的增强而减小.光场频率的正弦调制和脉冲调制均能使光场与原子的相互作用模式在共振和非共振之间发生变化,直接影响原子-原子纠缠度的演化规律.通过光场频率的调制可以实现原子-原子纠缠度的提高与稳定,避免ESD现象的出现,从而达到动态调控原子-原子纠缠的目的.
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