Theoretical research on the generation of a submicron localized hollow beam and its applications in the trapping and cooling of a single atom

Rui-Min, None Ren; Yin, Yin; Wang, Zhizhang; Chen, Guo; Yin, Jianping

doi:10.7498/aps.65.114101

Acta Phys. Sin.

2016

DOI: 10.7498/aps.65.114101

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Theoretical research on the generation of a submicron localized hollow beam and its applications in the trapping and cooling of a single atom

None Ren Rui-Min¹,

Yin Yin²,

Zhizhang Wang³

et al.

Abstract: In order to generate a submicron localized hollow laser beam and realize the more efficient laser cooling and trapping of a single atom, a simple and promising scheme with using the system of a single mode fiber a circle binary phase plate and a microlens is proposed in this paper. From Rayleigh-Sommerfeld diffraction theory, the intensity distribution of the generated localized hollow laser beam near the focal plane and its propagating properties in free space are calculated. Also, the dependences of the dark… Show more

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Cited by 3 publications

References 33 publications

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Design of a composite lighting system based on a freeform and a rod lens for machine vision

Peng

Sun

2022

Appl. Opt.

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Light-emitting diodes (LEDs) have been widely utilized in machine vision lighting systems such as the process monitoring system in the additive manufacturing field, owing to their long life, high illumination efficiency, and controllable dimming. The quality of the lighting system directly affects the efficiency and accuracy of the entire monitoring system. However, existing designs cannot meet the optical efficiency and uniformity requirements at short lighting distances and small inspection areas with mixed multi-spectrum channels. This paper thus proposes a novel, to the best of our knowledge, design method of integrating a freeform surface lens and a square-shaped rod lens. The optical characteristics under different working distances and targeting surface types have been optimized and evaluated. Meanwhile, tolerance analysis has been utilized to demonstrate the feasibility of installation. With the use of the software Tracepro, simulation results showed that the designed composite machine vision lighting system can obtain an optical efficiency of 81.704% and an illuminance uniformity of 95.804% within the inspection area at a distance of 250 mm. Furthermore, verification experiments with a prototype were performed, demonstrating the feasibility of the proposed machine vision lighting system.

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Design of a composite lighting system based on a freeform and a rod lens for machine vision

Peng

Sun

2022

Appl. Opt.

View full text Add to dashboard Cite

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Constrained unsteady-state iris fast certification for lightweight training samples based on the scale change stable feature and multi-algorithm voting

Liu

Zhu

et al. 2020

PLoS ONE

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Aiming at the problem of fast certification for a constrained iris in the same category caused by the unstable iris features caused by the change of the iris acquisition environment and shooting status under lightweight training samples, a one-to-one fast certification algorithm for constrained unsteady-state iris based on the scale change stable feature and multi-algorithm voting is proposed. Scale change stable features are found by constructing an isometric differential Gaussian space, and a local binary pattern algorithm with extended statistics (ES-LBP), the Haar wavelet with over threshold detection and the Gabor filter algorithm with immune particle swarm optimization (IPSO) are used to represent the stable features as binary feature codes. Iris certification is performed by the Hamming distance. According to the certification results of three algorithms, the final result is obtained by multi-algorithm voting. Experiments with the JLU and CASIA iris libraries under the iris prerequisite conditions show that the correct recognition rate of this algorithm can reach a high level of 98% or more, indicating that this algorithm can improve the operation speed, accuracy and robustness of certification.

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Design of microscope eyepiece with high magnification and wide field of view based on freeform surface

Guo¹,

Chang²,

Hu³

et al. 2020

Acta Phys. Sin.

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With the great improvement of microscope property, the eyepiece of microscope is required to have a larger field of view, high magnification, and better imaging quality. Because of the external aperture stop and short focal length, the design difficulty of microscope eyepiece lies in how to correct the distortion and other off-axis aberrations caused by the large field of view, and how to obtain an eye relief that meets the requirements for human observation is also important. The main aberrations of the eyepiece optical system, especially the effect of the optical system with distortion on imaging is analyzed in this paper. The freeform surface is applied to the distortion correction of the optical system of the microscope eyepiece. A wide-angle microscope eyepiece with field of vision of 60° and a magnification of 25× is described in this paper. The full-field distortion is less than 5%. The microscope eyepiece adopts a five-piece three-element structure, in which the freeform surface lens is made of plastic material and is symmetrical about the <i>XOZ</i> plane and <i>YOZ</i> plane. A high-performance microscope eyepiece design with simple structure, easy processing, and low cost is realized.

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Theoretical research on the generation of a submicron localized hollow beam and its applications in the trapping and cooling of a single atom

Cited by 3 publications

References 33 publications

Design of a composite lighting system based on a freeform and a rod lens for machine vision

Design of a composite lighting system based on a freeform and a rod lens for machine vision

Constrained unsteady-state iris fast certification for lightweight training samples based on the scale change stable feature and multi-algorithm voting

Design of microscope eyepiece with high magnification and wide field of view based on freeform surface

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