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Modulation of high-quality internal multifoci based on modified three-dimensional Fourier transform

Huaizhi Zhang, Jiaming Xu, Hengyang Li, Gang Xu, Yu Xiao, Wei Cheng, Xiahui Tang, Yingxiong Qin

2023Optics Letters11 citationsDOI

Abstract

We report an efficient method to generate arbitrary three-dimensional (3D) parallel multifoci inside a material. Taking into account the numerical aperture of the objective lens and the refractive index of the material, the Ewald cap was modified with a longer radius, then the whole 3D intensity distribution inside the material could be calculated using only a single Fourier transform (FT). By introducing the adaptive weight coefficient, the uniformity of the 3D multifoci improves from 81.3% to 98.9%. By adjusting the axial resolution of the Ewald cap, the uniformity of the axial multifoci improves from 85.9% to 99.7%. In the experiment, we have realized one-dimensional (1D), 2D, and 3D structures inside the fused silica, which are in excellent agreement with the simulation results. The experimental results of the "H-U-S-T" structure demonstrate that customized arbitrary intensity distribution inside the material can be realized.

Topics & Concepts

OpticsRefractive indexNumerical apertureFourier transformMaterials scienceIntensity (physics)RADIUSModulation (music)Fast Fourier transformQuality (philosophy)PhysicsMathematicsWavelengthComputer scienceAcousticsAlgorithmComputer securityQuantum mechanicsAdvanced Optical Imaging TechnologiesPhotonic Crystals and ApplicationsLaser Material Processing Techniques
Modulation of high-quality internal multifoci based on modified three-dimensional Fourier transform | Litcius