Yee FDTD simulations of normal-incidence plane waves on dielectric and magnetic interfaces exhibit systematic errors due to an implicit one-cell transition layer, quantified through discrete Fresnel coefficients and error estimates depending on impedance contrast and Courant number.
(2002) Nodal High-Order Methods on Unstructured Grids: I
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Time-domain Maxwell simulations of disordered high-index particle packs yield dynamical, spectral, and spatial signatures consistent with three-dimensional Anderson localization of vector light.
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Accuracy of the Yee FDTD Scheme for Normal Incidence of Plane Waves on Dielectric and Magnetic Interfaces
Yee FDTD simulations of normal-incidence plane waves on dielectric and magnetic interfaces exhibit systematic errors due to an implicit one-cell transition layer, quantified through discrete Fresnel coefficients and error estimates depending on impedance contrast and Courant number.
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Three-dimensional Anderson localization of light in dielectric disorder
Time-domain Maxwell simulations of disordered high-index particle packs yield dynamical, spectral, and spatial signatures consistent with three-dimensional Anderson localization of vector light.