Modeling Atomistically Assembled Diffractive Optics in Solids

We develop a model describing long-range atom-atom interactions in a two-dimensional periodic or aperiodic lattice of optical centers inside a solid-state host material. We consider realistic environmental and technical conditions such as frequency and position broadening. Even when considering a significant frequency broadening in the ensemble (approximately 300 GHz), we observe up to a three-fold increase in directional scattering from the resonant lattice in a system. The model can be used to scalably design quantum optical elements, e.g. a quantum lens, harnessing atomistic engineering (e.g. via ion implantation) of collective interactions in materials to enhance quantum properties.
Comment: 15 pages, 10 figures