Stability of Optical Absorber in Ring Cavity in the Presence of Squeezed Field
An optical system consists of two-level two-photon absorber placed in ring cavity, in the presence of a squeezed field, is considered. The stationary solution of this system has been studied before in details. Here the study of the dynamics of this system and the effect of the system parameters on it is the aim. For this purpose the principle of the bifurcation theory is employed. The squeezed field parameter effect on the stability of the system is illustrated in details. Examples of period doubling, complex periodic and chaotic behaviors are given.