The time-evolution of atomic population inverse of binomial photon field and negative binomial photon field interacting with two coupling atoms via intensity-dependent coupling is investigated.

The properties of the atomic population inversion for two typical cases——the frequency of the field varying with time in the forms of sine function and rectangular pulses——have been considered.

It is found that the collapse-revival phenomena and quick oscillations due to virtual photon processes of the atomic population inversion are deformed as the frequency changes with time in the sine form.

The dynamical properties of the population inversion of a trapped ion in travelling wave laser are studied.

Modeling the evolution of atomic population of two different atoms interacting in two-mode cavity field;

Under the assumption that the input field is in a coherent state and the atom is prepared in the most excited state,the time evolution of atomic populations of a cascade atom embedded in a Kerr medium is investigated by using the full quantum mechanical scheme.

The atomic population time-evolution of a system consisting of two two-level coupling atoms interacting with binomial photon field and the influences of field parameters on atomic population with the binomial photon field being in different states are investigated.

The time evolution of atomic occupancy for the system of squeezed vacuum field interacting with two coupling atoms via intensity-dependent coupling in two-photon transition are investigated.