Abstract
•The dynamics of the optical tomography is explored for an open cavity field.•Effects of the qubit-cavity coupling, detuning, and cavity phase damping on the optical tomography distribution is studied.•It is found that the amplitude, frequency, and stationary value of the generated optical tomography oscillations are very sensitive to the initial cavity field, detuning and the phase damping.
Optical tomography is investigated for time-dependent quantum states, which are generated from coherent even and odd coherent cavity fields interacting with a two-level system (qubit) in the presence of phase damping. The effects of the qubit-cavity coupling, detuning, and cavity phase damping on the optical tomography distribution are studied. The dynamics of the optical tomography is explored for an open cavity field. We show an aspect of the alteration of the optical tomography distribution.