Litcius/Paper detail

Monolithic topological honeycomb lens for achromatic focusing and imaging

Wu-Le Zhu, Fang Duan, Kazuya Tatsumi, Anthony Beaucamp

2021Optica14 citationsDOIOpen Access PDF

Abstract

Wavelength dispersion is a universal phenomenon in refractive optics that degrades optical performances. Current mitigation methods are being greatly challenged by the demanding requirements of miniaturization, low aberrations, high throughput, and accurate manufacture. Here, we propose an unconventional monolithic honeycomb-like lens concept with topological degrees of design freedom, capable of near diffraction-limited achromatic performance. To automate the design process, a methodological framework is presented that directly evolves the honeycomb lens from a flat window, instead of a knowledge-based starting geometry. The honeycomb lens performance at the full field of view is remarkably better than either traditional aspheric lenses or commercial cascaded lenses. It also overcomes limitations of flat metalenses, which have extremely small aperture sizes and suffer from multi-order aberrations. This topological honeycomb lens concept may pave the way to inexpensive and compact achromatic optics for focusing and imaging applications in consumer cameras, wearable optics, virtual reality, etc.

Topics & Concepts

Achromatic lensLens (geology)OpticsComputer scienceMiniaturizationChromatic aberrationSimple lensPhotonicsFocal lengthPhysicsMaterials scienceNanotechnologyChromatic scaleMetamaterials and Metasurfaces ApplicationsOptical Coatings and GratingsAdvanced Optical Imaging Technologies