| Literature DB >> 30664753 |
Ren Jie Lin1, Vin-Cent Su2, Shuming Wang3,4,5, Mu Ku Chen1, Tsung Lin Chung1, Yu Han Chen1, Hsin Yu Kuo1, Jia-Wern Chen1, Ji Chen3,4,5, Yi-Teng Huang1, Jung-Hsi Wang6, Cheng Hung Chu7, Pin Chieh Wu7, Tao Li3,4,5, Zhenlin Wang3,5, Shining Zhu8,9,10, Din Ping Tsai11,12,13.
Abstract
A light-field camera captures both the intensity and the direction of incoming light1-5. This enables a user to refocus pictures and afterwards reconstruct information on the depth of field. Research on light-field imaging can be divided into two components: acquisition and rendering. Microlens arrays have been used for acquisition, but obtaining broadband achromatic images with no spherical aberration remains challenging. Here, we describe a metalens array made of gallium nitride (GaN) nanoantennas6 that can be used to capture light-field information and demonstrate a full-colour light-field camera devoid of chromatic aberration. The metalens array contains an array of 60 × 60 metalenses with diameters of 21.65 μm. The camera has a diffraction-limited resolution of 1.95 μm under white light illumination. The depth of every object in the scene can be reconstructed slice by slice from a series of rendered images with different depths of focus. Full-colour, achromatic light-field cameras could find applications in a variety of fields such as robotic vision, self-driving vehicles and virtual and augmented reality.Entities:
Year: 2019 PMID: 30664753 DOI: 10.1038/s41565-018-0347-0
Source DB: PubMed Journal: Nat Nanotechnol ISSN: 1748-3387 Impact factor: 39.213