Tasgin Mehmet Emre
Institute of Nuclear Sciences, Hacettepe University, 06800 Ankara, Turkey.
Phys Rev Lett. 2017 Jul 21;119(3):033601. doi: 10.1103/PhysRevLett.119.033601. Epub 2017 Jul 20.
We derive a many-particle entanglement criterion for mixed states using a relation between single-mode and many-particle nonclassicalities. The criterion relies on the measurement of collective spin observables. It works very well not only in the vicinity of the Dicke states, but also for the superpositions of Dicke states: superradiant ground states of finite or infinite number of particles and time evolution of single-photon superradiance from an extended sample where random phases appear. We also obtain a criterion for ensemble-field entanglement, which is successful for such kinds of states. We also observe an interesting phenomenon: even though the collective excitation of this many-particle system has a sub-Poissonian character, which results in entanglement, the wave function displays bunching.
我们利用单模与多粒子非经典性之间的关系,推导了混合态的多粒子纠缠判据。该判据依赖于集体自旋可观测量的测量。它不仅在狄克态附近表现良好,而且对于狄克态的叠加态也适用:有限或无限数量粒子的超辐射基态以及来自出现随机相位的扩展样本的单光子超辐射的时间演化。我们还得到了一个系综 - 场纠缠判据,对于这类态是成功的。我们还观察到一个有趣的现象:尽管这个多粒子系统的集体激发具有亚泊松特性,这导致了纠缠,但波函数表现出聚束。