Litcius/Paper detail

Highly efficient enhancement and extension of focusing ability for ring Pearcey beam by means of dual-region parabolic trajectory offset modulation

Zihan Liu, Hechong Chen, Yongzheng Yang, Chenfei Yang, Xiangbo Yang, Shigen Ouyang, Jianping Guo, Min Ouyang, Dongmei Deng

2023Optics Letters16 citationsDOI

Abstract

It is a highly significant area of research to investigate how to effectively enhance the focusing ability of abruptly auto-focusing beams (AAFBs) while extending the focal length. We introduce a dual-region parabolic trajectory offset modulation to auto-focusing ring Pearcey beams (RPBs), presenting a novel, to the best of our knowlege, approach to extend the focal length while greatly enhancing their auto-focusing capabilities. Unlike directly introducing a linear chirp, which inevitably shortens the focal length to enhance the auto-focusing ability and allows only single focusing in the RPBs, our scheme can achieve a multi-focusing effect. Furthermore, we have experimentally generated such a beam, verifying our theoretical predictions. Our findings offer promising possibilities for generating optical bottles, trapping multiple particles periodically, and enhancing free-space optical communication capabilities.

Topics & Concepts

OpticsOffset (computer science)ChirpBeam (structure)TrajectoryFocal lengthPhysicsComputer scienceModulation (music)Self-focusingLaser beamsLaserLens (geology)Programming languageAstronomyAcousticsOrbital Angular Momentum in OpticsNear-Field Optical MicroscopyLaser-Matter Interactions and Applications