The dispersion and nonlinear property of highly nonlinear photonic crystal fiber(HNLPCF) are simulated with the vectorial beam propagation method.

The dispersive and nonlinear properties of the microstructure fiber with hexagonally distributed air-holes in the cladding are numerically simulated by using the vectorial beam propagation method.

Based on classics Maxwell equations and the theory of diffraction integral equation is used to solve results of beam propagation when the Fresnel number of resonator is not far higher than 1.

Based on the second-order moment theory of beam propagation,the properties of Lorentz beam have been investigated.

Based on the nonparaxial vectorial moment theory of light beam propagation, the propagation characteristics of nonparaxial vector Gaussian beam have been systemically investigated.

Influence of astigmatic lens on the beam parameters of cosh-Gaussian beams;

As to the diffractive beam from the end surface of planar waveguide in TE0 mode,under the condition of paraxial approximation,the analytic expressions between the beam parameters,the half width of waveguide core layer and the normalized frequency are derived from curve fitting.