Publication detail
Twisted Rainbow Light and Nature-Inspired Generation of Vector Vortex Beams
BOUCHAL, P. BOUCHAL, Z.
English title
Twisted Rainbow Light and Nature-Inspired Generation of Vector Vortex Beams
Type
journal article in Web of Science
Language
en
Original abstract
Twisted vector light beams (optical vortices) arise from a spiral modulation of the geometric (Pancharatnam-Berry) phase converting the light spin to the orbital angular momentum. The preferred geometric-phase elements using liquid crystals and plasmonic metasurfaces realize this conversion by structuring their building blocks, i.e., precisely orienting individual crystal molecules or plasmonic nanoantennas. Here, an analogous mechanism is discovered in the spiral phase modulation of light reflected by dielectric spheres and first demonstrated in natural phenomena, namely in the rainbow formation. The spiral geometric phase is documented by holographic imaging of full circle primary and secondary rainbows created in the laboratory. The measurement uses a wide-angle holographic camera (field of view approximate to 120 degrees) taking time-resolved self-correlation holograms (300 ms). The holograms allow a quantitative restoration of the spiral geometric phase of light reflected from thousands of randomly falling water drops. The capability of individual drops to generate vector vortex beams under circularly polarized illumination is proven theoretically and demonstrated in experiments using glass microspheres. The spherical reflectors are discovered as simple generators of vector vortex beams and vortex arrays, inspiring novel geometric-phase elements.
English abstract
Twisted vector light beams (optical vortices) arise from a spiral modulation of the geometric (Pancharatnam-Berry) phase converting the light spin to the orbital angular momentum. The preferred geometric-phase elements using liquid crystals and plasmonic metasurfaces realize this conversion by structuring their building blocks, i.e., precisely orienting individual crystal molecules or plasmonic nanoantennas. Here, an analogous mechanism is discovered in the spiral phase modulation of light reflected by dielectric spheres and first demonstrated in natural phenomena, namely in the rainbow formation. The spiral geometric phase is documented by holographic imaging of full circle primary and secondary rainbows created in the laboratory. The measurement uses a wide-angle holographic camera (field of view approximate to 120 degrees) taking time-resolved self-correlation holograms (300 ms). The holograms allow a quantitative restoration of the spiral geometric phase of light reflected from thousands of randomly falling water drops. The capability of individual drops to generate vector vortex beams under circularly polarized illumination is proven theoretically and demonstrated in experiments using glass microspheres. The spherical reflectors are discovered as simple generators of vector vortex beams and vortex arrays, inspiring novel geometric-phase elements.
Keywords in English
geometric phase; optical vortices; phase imaging; rainbows
Released
06.06.2022
Publisher
Wiley-VCH GmbH
Location
WEINHEIM
ISSN
1863-8899
Volume
16
Number
7
Pages from–to
1–10
Pages count
10
BIBTEX
@article{BUT178350,
author="Petr {Bouchal} and Zdeněk {Bouchal},
title="Twisted Rainbow Light and Nature-Inspired Generation of Vector Vortex Beams",
year="2022",
volume="16",
number="7",
month="June",
pages="1--10",
publisher="Wiley-VCH GmbH",
address="WEINHEIM",
issn="1863-8899"
}