A simple high-order Galerkin finite element scheme is formulated to compute both the guided and leaky modes of anisotropic planar waveguides with a diagonal permitivity tensor. Transparent boundary conditions derived from the Sommerfeld radiation conditions are used to model the fields at the computational boundaries that allow the radiation into the high index cladding/substrate and decay into the low index cladding/substrate, hence work for both guided and leaky modes. Richardson’s extrapolation is employed to achieve high-order accuracy by only using simple first-order-polynomial basis functions. Schemes up to 6th-order of accuracy in the effective index are demonstrated. The resulted non-linear sparse matrix eigenvalue equation is solve...
A variational method that gives 4th-order accuracy by only using linear basis functions within the c...
In this paper, an efficient finite-element formulation for dielectric media with transverse anisotro...
A full-wave modal analysis of two-dimensional, lossy and anisotropic optical waveguides using the fi...
A simple high-order Galerkin finite element scheme is formulated to compute both the guided and leak...
A Galerkin finite element scheme furnished with 1st-order Bayliss-Gunzburger-Turkel-like boundary co...
This work presents the application of a scalar finite element formulation for Ex (TE-like) modes in ...
The effects of the presence of a high-index medium in the proximity of planar waveguiding structures...
A finite difference scheme with a uniform mesh for planar waveguides with arbitrary refractive index...
Finite difference scheme with uniform mesh for planar waveguides with arbitrary refractive index pro...
Elastic guided waves are of interest for inspecting structures due to their ability to propagate ove...
Abstract. A spectral-element type approach to determine the propagation characteristics of the bound...
This paper discusses a numerical method for computing the electromagnetic modes supported by multila...
We have studied the approximation of optical waveguide eigenvalues by a high order isoparametric vec...
A spectral-element type approach to determine the propagation characteristics of the bound modes of ...
AbSfract- An improved vector finlte-element method has been used for the solution of general anisotr...
A variational method that gives 4th-order accuracy by only using linear basis functions within the c...
In this paper, an efficient finite-element formulation for dielectric media with transverse anisotro...
A full-wave modal analysis of two-dimensional, lossy and anisotropic optical waveguides using the fi...
A simple high-order Galerkin finite element scheme is formulated to compute both the guided and leak...
A Galerkin finite element scheme furnished with 1st-order Bayliss-Gunzburger-Turkel-like boundary co...
This work presents the application of a scalar finite element formulation for Ex (TE-like) modes in ...
The effects of the presence of a high-index medium in the proximity of planar waveguiding structures...
A finite difference scheme with a uniform mesh for planar waveguides with arbitrary refractive index...
Finite difference scheme with uniform mesh for planar waveguides with arbitrary refractive index pro...
Elastic guided waves are of interest for inspecting structures due to their ability to propagate ove...
Abstract. A spectral-element type approach to determine the propagation characteristics of the bound...
This paper discusses a numerical method for computing the electromagnetic modes supported by multila...
We have studied the approximation of optical waveguide eigenvalues by a high order isoparametric vec...
A spectral-element type approach to determine the propagation characteristics of the bound modes of ...
AbSfract- An improved vector finlte-element method has been used for the solution of general anisotr...
A variational method that gives 4th-order accuracy by only using linear basis functions within the c...
In this paper, an efficient finite-element formulation for dielectric media with transverse anisotro...
A full-wave modal analysis of two-dimensional, lossy and anisotropic optical waveguides using the fi...