📝 SummarXiv

Abstract

This article discusses electromagnetic properties of volumetric metamaterial samples with essentially discrete structure, that is, assembled as a periodic array of electromagnetic resonators. We develop an efficient numerical procedure for calculating quasi-static electromagnetic response precisely to analyse samples containing several million meta-atoms. We demonstrate that, contrary to a common belief, even million-``atoms'' samples with sharp edges are still quite different from uniform (``homogenised'') materials, and their properties are critically sensitive to their shape and boundary structure. We also compare our results with calculations based on the discrete dipole approximation as well as with an integral model for continuous particles, and analyse distinctions and similarities between the different approaches. In particular, discrete metamaterials present themselves as a stringent platform for assessing continuous models developed for finite objects with sharp edges. Overall, the reported results should be important for understanding mesoscopic systems with strongly interacting elements.