An integration method for spatially distributed 3D vortex arrays
A technology of spatial distribution and integration method, which is applied in the field of diffractive optics, can solve problems such as high system complexity, uneven diffraction efficiency, and inability to generate different topological charges, so as to expand the application range and reduce system complexity.
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[0061] The present invention will be described in detail below in conjunction with the accompanying drawings and embodiments. The specific embodiments described here are only used to explain the present invention, not to limit the present invention.
[0062] The integration method of a spatially distributed three-dimensional vortex array according to the present invention, the specific process is:
[0063] The design method to generate a 3D vortex array consists of three parts:
[0064] (1) Design of two-dimensional uniform intensity vortex grating
[0065] Two-dimensional uniform intensity vortex gratings can be realized by spatial superposition and intensity optimization of one-dimensional vortex gratings. Among them, the one-dimensional vortex grating transmittance function can be expressed as:
[0066]
[0067] That is, vortex beams with nl topological charges are generated on different orders respectively. Take the phase value of the grating, multiply it with the r...
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