Generalized Description of the Effects of a Thin Nonlinear Medium Upon the Propagation of an Optical Beam

Abstract: A theoretical description of the propagation of an initially Gaussian beam through a “generalized” thin nonlinear medium is developed, where the linear part of the optical system can be characterized by an ABCD matrix. The optical field is determined on the output interface of the medium and is decomposed into Gaussian-Laguerre modes. These modes are then propagated through the optical system using the ABCD law, so that the field distribution at any point can be determined. We obtain an expression for the on-a… Show more

“…It is generally possible to decompose the beam into propagation modes, and to solve the propagation problem by applying a ray-transfer (ABCD) matrix to each constituent mode [6]. This is a useful modelling technique for complicated optical arrangements where the successive application of diffraction integrals would prove tedious.…”

<title>Beam shape sensitivity of spatial scanning</title>

“…It is generally possible to decompose the beam into propagation modes, and to solve the propagation problem by applying a ray-transfer (ABCD) matrix to each constituent mode [6]. This is a useful modelling technique for complicated optical arrangements where the successive application of diffraction integrals would prove tedious.…”

<title>Beam shape sensitivity of spatial scanning</title>

Beam shape and phase solutions from the variational analysis of nonlinear optical propagation in thick media

Z-scan with arbitrary aperture transmittance: the strongly nonlinear regime