摘要
研究了强经典场驱动模型下原子间纠缠与光场间纠缠的演化特性,其中原子与光腔场发生非共振相互作用。给定其中某一原子与其耦合光腔场的条件,通过调节另一原子与其相互作用光场的失谐量,来分析原子间纠缠出现猝死行为的区域,以及两光场纠缠相干态的产生条件。
The evolutional characteristics of the atomic entanglement and optical-cavity entanglement were mainly investigated in the classical strongly driven cavity QED model, and two atoms are off-resonantly coupled with their cavity fields, respectively. By fixing the parameters of one atom and its coupled optical cavity field, and modifying the detuning between the other atom and its optical cavity, the occurrence area of the atomic entanglement sudden death was discussed, and the conditions on the emergence of the entangled coherent states between two optical cavity fields were acquired.
出处
《量子电子学报》
CAS
CSCD
北大核心
2013年第2期186-191,共6页
Chinese Journal of Quantum Electronics
基金
国家自然科学基金项目(61178012,10947006)
关键词
量子光学
量子纠缠
转置矩阵负本征值
纠缠突然死亡
quantum optics
quantum entanglement
negative eigenvalues of the partial transposition
entanglement sudden death