Nonclassical properties of asymmetric two two-level atoms interacting with multi-photon quantized field

A quantum model for the interaction between asymmetric two two-level atoms and an electromagnetic field is presented. The k-photon processes and atom-atom interaction are considered in this quantum model. The wavefunction for asymmetric case of the proposed model is obtained analytically. While, the explicit analytical formula of the wavefunction for symmetric case was calculated in previous works. Initially, the electromagnetic field is in the coherent state and two two-level atoms are identical in the excited states. For the proposed model, some statistical aspects are obtained, such as the linear entropy, atomic population inversion, entropy squeezing, atomic variance and von Neumann entropy. The evaluations of these statistical properties are discussed for the variation in the detuning parameters. Moreover, the nonclassical effects for atom-atom interaction are observed.