With the multi-photon transition,the atomic inversion and linear entropy in a system of two coupled atoms interacting with the Pólya state are studied by means of the full quantum theory.The influences of the optical field parameters and the numbers of the transition photons on the atomic inversion and linear entropy are analyzed.The results show that the increase of the numbers of the transition photons,the interval time between the collapse-recovery of the atomic inversion phenomenon is shortened,and the amplitude of linear entropy can be changed.With the increase of the optical field distribution parameter r,the collapse-recover of the atomic inversion can be eliminated and the minimum value of the oscillation period of linear entropy can be decreased;when the value of parameter η increases,the period and the amplitude of the oscillation of the atomic inversion and linear entropy will be changed.