Journal ArticleDOI
High-accuracy finite-difference equations for dielectric waveguide analysis I: uniform regions and dielectric interfaces
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In this article, a methodology is presented that allows the derivation of low-truncation-error finite-difference representations or the two-dimensional Helmholtz equation, specific to waveguide analysis.Abstract:
A methodology is presented that allows the derivation of low-truncation-error finite-difference representations or the two-dimensional Helmholtz equation, specific to waveguide analysis. This methodology is derived from the formal infinite series solution involving Bessel functions and sines and cosines. The resulting finite-difference equations are valid everywhere except at dielectric corners, and are highly accurate (from fourth to sixth order, depending on the type of grid employed). None the less, they utilize only a nine-point stencil, and thus lead to only minor increases in numerical effort compared with the standard Crank-Nicolson equations.read more
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Proceedings ArticleDOI
Compact second-order accurate transparent boundary condition for the Helmholtz equation
TL;DR: In this article, the frequency-domain version of the absorbing boundary condition for the Helmholtz equation is applied to the wave equation and the results show that it is able to keep every finite-difference operator accurate to the second power of the grid spacing for both the edge and corner points.
Posted Content
Trefftz Difference Schemes on Fuzzy Stencils
TL;DR: This paper advances and casts in a general form a significant modification of FLAME: a least-squares fit instead of the exact match of the approximate solution at the stencil nodes, which means FLAME schemes can now be generated on irregular stencils with the number of nodes substantially greater than thenumber of approximating functions.
Dissertation
Theory and design of integrated optical isolators and broadband couplers using Fresnel zone plates
TL;DR: In this article, Watts et al. proposed a broadband vertical coupler in a Si waveguide, which utilizes a Fresnel lens, or more advanced integrated optics, placed above a short, ridge and deep etched, vertical cable.
Proceedings ArticleDOI
3D compact FD-FD stencils based on spherical Fourier-Bessel series
TL;DR: In this paper, the authors extended the work of connected local fields (CLF) to the 3D case and used a local field expansion from a truncated spherical Fourier-Bessel series (SFBS) to obtain four variations of 3D compact frequency domain (FD) stencils.
Proceedings ArticleDOI
Design tools and modeling techniques for integrated optics devices: requirements and applications
TL;DR: In this article, a short review of the theoretical basics of modeling techniques in integrated optics, essentially mode solving and field propagation, and some of the underlying numerical approaches in short are presented.
References
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Journal ArticleDOI
Handbook of Mathematical Functions
Book
Table of Integrals, Series, and Products
TL;DR: Combinations involving trigonometric and hyperbolic functions and power 5 Indefinite Integrals of Special Functions 6 Definite Integral Integral Functions 7.Associated Legendre Functions 8 Special Functions 9 Hypergeometric Functions 10 Vector Field Theory 11 Algebraic Inequalities 12 Integral Inequality 13 Matrices and related results 14 Determinants 15 Norms 16 Ordinary differential equations 17 Fourier, Laplace, and Mellin Transforms 18 The z-transform
Journal ArticleDOI
Finite-element solution of integrated optical waveguides
B. M. A. Rahman,J.B. Davies +1 more
TL;DR: In this paper, a vector H -field finite-element method has been used for the solution of optical waveguide problems, where the permittivity of the guiding structures can be an arbitrarily tensor, only limited to being lossless.
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