Determination of the optimal relaxation parameter in a numerical procedure for solitons propagation
This is an incremental optimization for researchers simulating soliton propagation in optical fibers.
The authors optimize the numerical processing time for soliton propagation simulations by determining the optimal relaxation parameter for a given numerical procedure, focusing on relevant dielectric variable groups.
In this work, considering a numerical procedure developed to solve a system of coupled nonlinear complex differential equations, which describes the solitons propagation in dielectric optical fibers, we optimize the numerical processing time, in relation to the relaxation parameter of the procedure, for relevant groups of values of the dielectric variables of the optic fiber. Key-words: optical soliton, processing time, optimization.