The $N$-achromat and beyond: a unified variational framework for optimal chromatic aberration correction

In this article, we present novel and effective methods for reducing chromatic aberrations in cemented lens systems. We derive an analytical solution coined the pentachromat, which corrects five distinct colors. This method can naturally be extended to accommodate an arbitrary number of lenses and to correct for a customized selection of spectral lines. Since correcting for specific rays rather than the entire residual spectrum can overconstrain the system, we introduce a variational formulation. This approach tames the residual spectrum by several orders of magnitude compared to conventional designs like the superachromat, while giving theoretical guarantees to reach the optimal solutions. Furthermore, this innovative methodology opens up previously uncharted design possibilities, such as multiple-focal-length achromatic systems. This allows for the selection of specific optical powers paired with desired bandwidths, enabling the design of highly specialized and tailored optical systems. Finally, we couple our variational framework with a combinatorial search, allowing to find the type of glasses and their geometry such that it reaches the best residual spectrum over an available catalogue.