Abstract
Propagation of envelope soliton in two-dimensional optical waveguide was demonstrated by finite-difference time-domain(FDTD) method including linear and nonlinear dispersion terms. The dispersive characteristics were taken into FDTD algorithm by Z-transform of discrete data. By shifting the computational window, the soliton propagation in the optical waveguide with Kerr nonlinearity up to 1000 micrometer was simulated.
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