Litcius/Paper detail

Generalized perfect optical vortices along arbitrary trajectories

Yue Chen, Tingchang Wang, Yu‐Xuan Ren, Zhao-Xiang Fang, Guangrui Ding, Liqun He, Rong‐De Lu, Kun Huang

2021Journal of Physics D Applied Physics20 citationsDOI

Abstract

Abstract Perfect optical vortices (POVs) arevortex beams with infinitely narrow rings and fixed radii independent of their topological charges. Here we propose the concept of generalized POVs (GPOVs) along arbitrary curves beyond the regular shapes of circles and ellipses. GPOVs share similar properties to POVs, such as defined only along infinitely narrow curves and owning topological charges independent of scale. Using a rigorous mathematical derivation in a curvilinear coordinate, we reveal theoretically that the GPOVs have a topological charge proportional to the area of the swept sector in tracing the curve, suggesting a unique mode for optical vortex beams. Experimentally, the complex-amplitude masks to generate the GPOVs are realized by using a pure-amplitude digital micro-mirror device with the super-pixel encoding technique. The phase profiles of the generated GPOVs are retrieved experimentally through self-built interferometry and exhibit good agreement with the simulations. We also derive a properly modified formula to yield the intensity-uniform GPOVs along predesigned curves, which might find applications in optical tweezers and communications.

Topics & Concepts

PhysicsEllipseOptical vortexCurvilinear coordinatesOpticsTopological quantum numberAmplitudeVortexTopology (electrical circuits)Optical tweezersGeometryMathematicsQuantum mechanicsBeam (structure)CombinatoricsThermodynamicsAstronomyOrbital Angular Momentum in OpticsPlasmonic and Surface Plasmon ResearchMetamaterials and Metasurfaces Applications