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Generation of Perfect Vortex Beams with Complete Control over the Ring Radius and Ring Width

Xin Tao, Yong Liang, Shirui Zhang, Yueqing Li, Minghao Guo, Peng Li

2023Photonics11 citationsDOIOpen Access PDF

Abstract

We have experimentally created perfect vortex beams (PVBs) by Fourier transformation of Bessel–Gaussian vortex beams, which are generated by modulating the fundamental Gaussian beam with the spiral phase plates and the axicons, respectively. Although the method has been used many times by other authors, as far as we know, few people pay attention to the quantitative relationship between the control parameters of the PVB and ring width. The effects of the waist radius of the fundamental Gaussian beam wg, base angle of the axicon γ, and focal length of the lens f on the spot parameters (ring radius ρ, and ring half-width Δ) of PVB are systematically studied. The beam pattern of the generated Bessel–Gaussian beam for different propagation distances behind the axicon and the fundamental Gaussian beam wg is presented. We showed experimentally that the ring radius ρ increases linearly with the increase of the base angle γ and focal length f, while the ring half-width Δ decreases with the increase of the fundamental beam waist radius wg, and increases with enlarging the focal length f. We confirmed the topological charge (TC) of the PVB by the interferogram between the PVB and the reference fundamental Gaussian beam. We also studied experimentally that the size of the generated PVB in the Fourier plane is independent of the TCs. Our approach to generate the PVB has the advantages of high-power tolerance and high efficiency.

Topics & Concepts

AxiconOpticsRADIUSGaussian beamPhysicsBeam (structure)Beam diameterLens (geology)Materials scienceLaserLaser beamsComputer scienceComputer securityOrbital Angular Momentum in OpticsMicrofluidic and Bio-sensing TechnologiesNear-Field Optical Microscopy
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