FDTD Solutions is useful for numerous engineering problems of commercial interest including: integrated optical components display technologies optical storage devices OLED design biophotonic sensors plasmon polariton resonance devices optical waveguide devices photonic crystal devices LCD devices FDTD Solutions is an accurate and easy to use, versatile design tool capable of treating this wide variety of applications. The available alternative computational methods - often relying on approximate models - frequently provide inaccurate results. It is especially useful for describing radiation incident upon or propagating through structures with strong scattering or diffractive properties. The FDTD algorithm is useful for design and investigation in a wide variety of applications involving the propagation of electromagnetic radiation through complicated media.
Introduction The goal of the Getting Started Guide is to introduce FDTD Solutions and demonstrate how it can be used to model a number of simple systems.
Table of Contents Part I Introduction 1 2 3 4
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