Publication | Closed Access
Full-vector waveguide modeling using an iterative finite-difference method with transparent boundary conditions
113
Citations
22
References
1995
Year
Numerical AnalysisFinite Element MethodMethod Of Fundamental SolutionEngineeringPhysicsIterative Finite-difference MethodTransparent Boundary ConditionsTransparent Boundary ConditionApplied PhysicsDielectric BoundariesHigh-frequency ApproximationGuided-wave OpticInverse ProblemsFull-vector WaveguideComputational ElectromagneticsBoundary Element MethodNumerical Method For Partial Differential EquationFull-vector Waveguide Equation
We describe a finite difference solution technique for the full-vector waveguide equation based upon the alternating-direction-implicit (ADI) iterative method. Our technique accurately treats dielectric boundaries (including corners), requires minimal computer resources, and executes faster (by factors of 3-10) than other iterative approaches. In addition, we employ a transparent boundary condition that effectively removes the sensitivity of the calculated results to the size of the computational domain. This feature greatly facilitates the examination of modes near cutoff.< <ETX xmlns:mml="http://www.w3.org/1998/Math/MathML" xmlns:xlink="http://www.w3.org/1999/xlink">></ETX>
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