Designing metasurface optical interfaces for solid-state qubits using many-body adjoint shape optimization
Abstract
We present a general strategy for the inverse design of metasurfaces composed of elementary shapes. We use it to design a structure that collects and collimates light from nitrogen-vacancy centers in diamond. Such metasurfaces constitute scalable optical interfaces for solid-state qubits, enabling efficient photon coupling into optical fibers and eliminating free-space collection optics. The many-body shape optimization strategy is a practical alternative to topology optimization that explicitly enforces material and fabrication constraints throughout the optimization, while still achieving high performance. The metasurface is easily adaptable to other solid-state qubits, and the optimization method is broadly applicable to fabrication-constrained photonic design problems.
Cite
@article{arxiv.2406.08212,
title = {Designing metasurface optical interfaces for solid-state qubits using many-body adjoint shape optimization},
author = {Amelia R. Klein and Nader Engheta and Lee C. Bassett},
journal= {arXiv preprint arXiv:2406.08212},
year = {2024}
}
Comments
Accepted version. 16 pages, 11 figures (main text plus supplementary information)