Litcius/Paper detail

Nanoprinted Diffractive Layer Integrated Vertical-Cavity Surface-Emitting Vortex Lasers with Scalable Topological Charge

Yibo Dong, Guanzhong Pan, Meng Xun, Hang Su, Long Chen, Yun Sun, Haitao Luan, Xinyuan Fang, Dexin Wu, Min Gu

2023Nano Letters26 citationsDOI

Abstract

Vertical-cavity surface-emitting lasers (VCSELs) represent an attractive light source to integrate with OAM structures to realize chip-scale vortex lasers. Although pioneering endeavors of VCSEL-based vortex lasers have been reported, they cannot achieve large topological charges (less than l = 5) due to the insufficient space-bandwidth product (SBP) caused by the inherent limited device size. Here, by integrating a nanoprinted OAM phase structure on the VCSELs, we demonstrate a vortex microlaser with a low threshold and simple structure. A monolithic microlaser array with addressable control of vortex beams with different topological charges ( l = 1 to l = 5) was achieved. Nanoprinting offers high degrees of freedom for the manipulation of spatial structures. To address the challenge of insufficient SBP, two-layer cascaded spiral phase plates were designed. Thereby, a vortex beam with l = 15 and mode purity of 83.7% was obtained. Our work paves the way for future chip-scale OAM-based information multiplexing with more channels.

Topics & Concepts

VortexTopological quantum numberLaserOpticsOptoelectronicsMultiplexingTopology (electrical circuits)PhysicsMaterials scienceComputer scienceTelecommunicationsEngineeringQuantum mechanicsThermodynamicsElectrical engineeringOrbital Angular Momentum in OpticsPhotonic and Optical DevicesSemiconductor Lasers and Optical Devices