Affiliation:
1. School of Physics Engineering and Technology University of York York YO10 5DD UK
2. Department of Physics Harvard University Cambridge MA 02138 USA
3. Biophotonics Lab Phutung Research Institute Tarakeshor‐7 Kathmandu 44611 Nepal
4. São Carlos School of Engineering Department of Electrical and Computer Engineering University of São Paulo São Paulo 13566–590 Brazil
Abstract
AbstractThe advantages of metalenses to enable miniaturized systems have been well established, especially in the visible and infrared wavelength regimes. The ultraviolet (UV) presents a final frontier because feature size scales as the wavelength, so realizing a large size metalens with a high numerical aperture (NA) in the UV is a major challenge. Here, a single‐layer, thin‐film (450 nm) hybrid metalens with an NA of 0.9 and a diameter of 6.2 mm is presented. By combining a Fresnel lens and optimised binary gratings, the well‐known shadowing effect of Fresnel lenses at high NA is avoided while being able to realize a large area lens. It is demonstrated that the combination of high NA and large area affords efficient detection of tryptophan‐like fluorescence, which is a well‐studied proxy for water contamination with faecal coliforms. The detection of tryptophan at levels better than 1 ppb, which corresponds to the low‐risk category for drinking water according to the World Health Organization (WHO), is shown. It is also confirmed that the hybrid metalens fluorescence collection efficiency is 3.5 times higher than a high NA plano‐convex lens used in state‐of‐the‐art fluorometers, which demonstrates that the versatile metalens approach opens up new opportunities in the UV.
Funder
Global Challenges Research Fund
The World Academy of Sciences
Subject
Atomic and Molecular Physics, and Optics,Electronic, Optical and Magnetic Materials