Vortex nanolaser based on a photonic disclination cavity
Date
2024
Authors
Hwang, Min-Soo
Kim, Ha-Reem
Kim, Jungkil
Yang, Bohm-Jung
Kivshar, Yuri
Park, Hong-Gyu
Journal Title
Journal ISSN
Volume Title
Publisher
Nature Publishing Group
Abstract
Optical vector vortex beams provide additional degrees of freedom for spatially distinguishable channels in data transmission. Although several coherent light sources carrying a topological singularity have been reported, it remains challenging to develop a general strategy for designing ultra-small, high-quality photonic nanocavities that generate and support optical vortex modes. Here we demonstrate wavelength-scale, low-threshold, vortex and anti-vortex nanolasers in a C 5 symmetric optical cavity formed by a topological disclination. Various photonic disclination cavities are designed and analysed using the similarities between tight-binding models and optical simulations. Unique resonant modes are strongly confined in these cavities, which exhibit wavelength-scale mode volumes and retain topological charges in the disclination geometries. In the experiment, the optical vortices of the lasing modes are clearly identified by measuring polarization-resolved images, Stokes parameters and self-interference patterns. Demonstration of vortex nanolasers using our facile design procedure will pave the way towards next-generation optical communication systems.
Description
Keywords
Citation
Collections
Source
Nature Photonics
Type
Journal article
Book Title
Entity type
Access Statement
Open Access
License Rights
Creative Commons Attribution licence
Restricted until
Downloads
File
Description