Design of meta-surface lens integrated with pupil filter

TL;DR

This paper presents a novel metasurface lens integrated with pupil filtering to enhance super-resolution imaging, combining phase modulation and multi-dimensional light control for improved focus and resolution.

Contribution

It introduces an integrated metasurface lens with pupil filtering that achieves super-resolution performance, expanding applications in high-resolution imaging and optical display technologies.

Findings

Preliminary demonstration of super-resolution capability.

Enhanced focusing and imaging resolution through multi-dimensional modulation.

Potential applications in VR and 3D optical displays.

Abstract

Metasurface lenses are miniature flat lenses that can precisely control the phase, amplitude, and polarization of incident light by modulating the parameters of each unit on the substrate. Compared with conventional optical lenses, they have the advantages of small size, light weight, and high integration, and are the core components of photonic chips. Currently, the hot topics for metasurface lens are broadband and achromatic devices, and there is still less attention paid to the resolution improvement. To break through the diffraction limit and further improve the focusing performance and imaging resolution of metasurface lenses, we use unit cells to perform multi-dimensional modulation of the incident light field. Specifically, in this paper, we combine phase modulation of metasurface lens with a pupil filtering, which has been widely applied to traditional microscopy imaging and adaptive optics and has demonstrated powerful resolution enhancement effects. The integrating of these two technologies will continue to improve the imaging performance of metasurface lenses and thus expanding their application fields. This result preliminarily demonstrates the super-resolution performance of the integrated meta-surface lens. With the comprehensive regulation of multi-dimensional information, such as amplitude, polarization, and vortex, the integrated meta-surface optical lens will achieve more excellent super-resolution focusing and imaging performance, and will also be widely used in the fields of super-resolution imaging, virtual reality, and three-dimensional optical display, due to its characteristics of high resolution, high integration, and high miniaturization.