Full Explicit Numerical Modeling in Time-Domain for Nonlinear Electromagnetics Simulations in Ultrafast Laser Nanostructuring

Abstract: The purpose of this paper is to present a new and accurate, fully explicit finite-difference time-domain method for modeling nonlinear electromagnetics. The approach relies on a stable algorithm based on a general vector auxiliary differential equation in order to solve the curl Maxwell’s equation in a frequency-dependent and nonlinear medium. The energy conservation and stability of the presented scheme are theoretically proved. The algorithms presented here can accurately describe laser pulse interaction wit… Show more

“…A new and accurate, fully explicit finite-difference time-domain method for modeling a nonlinear electromagnetic medium has been proposed in theoretical work [8]. The developed algorithms describe the interaction of the laser pulse with metals and interfaces of nonlinear dielectric media well, where Kerr and Raman effects, as well as multiphoton ionization and metal dispersion, occur simultaneously.…”

Special Issue on New Trends in Nonlinear Optics in Nanostructures and Plasmonics

“…A new and accurate, fully explicit finite-difference time-domain method for modeling a nonlinear electromagnetic medium has been proposed in theoretical work [8]. The developed algorithms describe the interaction of the laser pulse with metals and interfaces of nonlinear dielectric media well, where Kerr and Raman effects, as well as multiphoton ionization and metal dispersion, occur simultaneously.…”

Special Issue on New Trends in Nonlinear Optics in Nanostructures and Plasmonics

Axicon lenses with chiral-focusing properties modeling by means of analytical functions