Metalens array miniaturized microscope for large-field-of-view imaging

Abstract

Miniaturized microscopes with large field-of-view (FOV) have wide applications in biomedical imaging and automated machine vision. Conventional microscopes with a single objective lens have tradeoffs among FOV, resolution and device thickness. Thanks to the high compactness and design flexibility, metalens has a great potential for building the next generation compact imagers. However, there have been various challenges and performance tradeoffs in the design, fabrication and implementation of metalens that could support a large FOV. Here, we present a metalens array based miniaturized microscope that provides extremely high compactness and large FOV. Each metalens unit can image the object tile immediately below it. By tiling such metalens units, we can scale up the FOV while keeping the same device thickness and imaging quality as the microscope with a single metalens unit. Our metalens array enables a compact microscope that can perform large FOV imaging through arbitrary polarized light. We experimentally demonstrated the miniaturized metalens array microscope in 1310 nm wavelength, which has an FOV of 3 × 4 mm2 and can resolve 6.9 μm lines, with 4 mm distance between the sample surface to the camera sensor. Although this is a proof-of-concept demonstration, our metalens array microscope provides a promising solution for portable and implantable camera for large-FOV high-resolution imaging.