Arbitrary Order Perturbation Expansion Applied to Steady-State Nonlinear Kerr Effect Relaxations in Coupled AC and DC Weak Fields

Abstract: The steady state response of the nonlinear Kerr effect to a small ac field superimposed on a dc field is analysed using second-order perturbation theory. We justify the truncature effect entailed in solving the infinite set of differential equations that yield the electric polarization and birefringence, and hence draw inferences from the appearance of single and double harmonics as the fundamental frequencies of nonlinear Kerr effect. Tle addition of small inertial effects in the solution of this phenomenon r… Show more

“…Inertial effects are very important for understanding line shapes. With the aid of the Fokker-Planck-Kramer (FPK) equation [10,11,12,13,14], Hounkonnou et al [13,15,16,17] presented the steady state analysis of the electric polarisation and the Kerr optical function in a radio frequency a.c. field;…”

A quantum statistical mechanics model of a three-dimensional linear rigid rotator in a bath of oscillators: IV - steady state dielectric properties induced by AC and DC field coupling

“…Inertial effects are very important for understanding line shapes. With the aid of the Fokker-Planck-Kramer (FPK) equation [10,11,12,13,14], Hounkonnou et al [13,15,16,17] presented the steady state analysis of the electric polarisation and the Kerr optical function in a radio frequency a.c. field;…”

A quantum statistical mechanics model of a three-dimensional linear rigid rotator in a bath of oscillators: IV - steady state dielectric properties induced by AC and DC field coupling

Time dependent behaviour of third-order electric polarisation in a.c. reorienting field in molecular liquids