Amplification without inversion, fast light and optical bistability in a duplicated two-level system

The optical properties of a weak probe field in a duplicated two-level system are investigated in multi-photon resonance (MPR) condition and beyond it. It is shown that by changing the relative phase of applied fields, the absorption switches to the amplification without inversion in MPR condition. By applying the Floquet decomposition to the equations of motion beyond MPR condition, it is shown that the phase-dependent behavior is valid only in MPR condition. Moreover, it is demonstrated that the group velocity of light pulse can be controlled by the intensity of the applied fields and the gain-assisted superluminal light propagation (fast light) is obtained in this system. In addition, the optical bistability (OB) behavior of the system is studied beyond MPR condition. We apply an indirect incoherent pumping field to the system and it is found that the group velocity and OB behavior of the system can be controlled by the incoherent pumping rate. •We studied the optical properties of DTL system under MPR condition and beyond it.•By changing the relative phase, the absorption switches to the amplification without inversion in MPR condition.•The gain-assisted superluminal light propagation (fast light) is obtained in this system.•The optical bistability (OB) behavior of the system is studied beyond MPR condition.•The incoherent pumping rate has a major role in controlling the group velocity and OB behavior of the system.