Simulations of femtosecond laser excitation in bulk silica
Summary
A model to simulate the interaction between ultrashort light pulses and bulk fused
silica is presented. Starting from Maxwell's equations, an equation for computing light
propagation is derived using the slowly varying envelope approximation. Two third
order nonlinear effects, the Kerr effect and Raman scattering, are taken into account.
The model also takes into account the generation of an electron plasma by strong ?field
ionization and impact ionization. To describe this process Rethfeld's multiple rate
equation is used. The transmission profiles predicted by the simulations are compared
with experimental transmission images of electron plasma in silica.