压缩真空环境中无相互作用两量子比特系统的纠缠动力学

本文研究了压缩真空中无相互作用双原子的纠缠动力学特性。通过分析不同初始纠缠态的演化，发现压缩真空中纠缠原子失去纠缠的速度比在普通真空中更快，并且压缩越大纠缠衰减越快。可以用concurrence和可分性“距离”Lambda的时间演化来解释这种不同寻常的纠缠突然消失现象。

Entanglement dynamics of two non-interacting atoms in a squeezed vacuum reservoir is studied. Several examples with different initial entangled states are investigated, and it is found that entangled atoms become disentangled faster in squeezed vacuum than in ordinary vacuum, and larger squeezing results in faster entanglement decay. The time evolution of the concurrence and the separability "distance" 'Lambda' can be used to explain this novel entanglement sudden death phenomenon.