Atom-field system: Effects of squeezing and intensity dependent coupling on the quantum coherence and nonclassical properties

Recently, Kumar Gerry et al. [Phys. Rev. A 90, 033427 (2014) https://doi.org/10.1103/PhysRevA.90.033427] studied the coherence control in a six-level atom through solving the Schrodinger equation in the field-interaction representation. In this manuscript, we investigate the interaction between a six-level atomic system (SLAS) and a single-mode field initially prepared in a squeezed coherent state. We extend the Jeans-Cummings model to describe the interaction between the atom and the squeezed field (SF) and the system dynamics. We examine the time evolution of the atomic coherence, non-local correlation, statistical properties within the bipartite system in the presence and absence intensity-dependent coupling (I-DC) for different squeezing regimes of the field.

Automated summary

In this manuscript, the interaction between a six-level atomic system (SLAS) and a single-mode field in different squeezing regimes is investigated. The time evolution of atomic coherence, non-local correlation, and statistical properties within the bipartite system are examined in the presence and absence of intensity-dependent coupling (I-DC).