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A T‐Matrix Based Approach to Homogenize Artificial Materials

Benedikt Zerulla, Ramakrishna Venkitakrishnan, Dominik Beutel, Marjan Krstić, Christof Holzer, Carsten Rockstuhl, Ivan Fernandez‐Corbaton

2022Advanced Optical Materials21 citationsDOI

Abstract

Abstract The accurate and efficient computation of the electromagnetic response of objects made from artificial materials is crucial for designing photonic functionalities and interpreting experiments. Advanced fabrication techniques can nowadays produce new materials as 3D lattices of scattering unit cells. Computing the response of objects of arbitrary shape made from such materials is typically computationally prohibitive unless an effective homogeneous medium approximates the discrete material. In here, a homogenization method based on the effective transition (T‐)matrix, is introduced. Such a matrix captures the exact response of the discrete material, is determined by the T‐matrix of the isolated unit cell and the material lattice vectors, and is free of spatial dispersion. The truncation of to dipolar order determines the common bi‐anisotropic constitutive relations. When combined with quantum‐chemical and Maxwell solvers, the method allows one to compute the response of arbitrarily‐shaped volumetric patchworks of structured molecular materials and metamaterials.

Topics & Concepts

MetamaterialHomogenization (climate)ComputationMaterials scienceMatrix (chemical analysis)Bravais latticeAnisotropyScatteringPhotonic crystalTruncation (statistics)Maxwell's equationsComputer scienceComputational scienceAlgorithmPhysicsOpticsClassical mechanicsComposite materialOptoelectronicsCrystal structureBiodiversityEcologyBiologyCrystallographyChemistryMachine learningPhotonic Crystals and ApplicationsMetamaterials and Metasurfaces ApplicationsPlasmonic and Surface Plasmon Research
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