Modeling of energy redistribution process in a spectrum of laser pulse of a few optical cycles propagating in a fused silica

## Abstract The numerical solution of a wave equation describing the propagation of the laser pulse of a few optical cycles in fused silica is obtained. Our numerical simulations closely follow the published experimental data. A shifting of the spectrum peak of the broadened pulse, depending on the

## Abstract Using the method of unidirectional waves, we numerically solve a wave equation that describes the vector propagation of a femtosecond laser pulse of few optical cycles in a uniaxial crystal. Propagation of the pulse in the direction normal to the optical axis is studied, taking into acc

An analytical expression is derived for the energy in an acoustic wave resulting from pulsed laser excitation of optically thm samples. Assumptions used to derive this cxprcssion include a small temperature increase due to optlcal absorption. a timedependent expansion limited by the acoustic wave pr