Realization of collimated specific profiles in rotation-symmetrical beam shaping system with divergent light source

IF 4.703 3区 材料科学 Nanoscale Research Letters Pub Date : 2023-12-21 DOI:10.1186/s11671-023-03934-1
Cheng-Mu Tsai, Tzu-Chen Yu, Pin Han, Yi-Chin Fang
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Abstract

A simple numerical method is proposed for the design of two aspherical surfaces, each comprising multiple segmented refractive planes, for generating a collimated beam with a specific irradiance profile in a beam shaping system with a divergent light source. However, in real-world manufacturing, this performance improvement is obtained at the expense of a greater cost and complexity. Accordingly, a second algorithm is proposed which maximizes the number of rays passing through the central regions of the refractive planes in the second aspherical surface and hence minimizes the total number of segments required to achieve the same beam shaping performance. The feasibility of the proposed method is demonstrated through the design of two aspherical lenses for generating collimated output beams with ring- and triangle-like irradiance profiles, respectively. The experimental results show that the beam profiles are in close agreement with the desired irradiance distributions. In general, the results indicate that the proposed method provides a versatile and efficient approach for achieving the desired collimated profile in beam forming systems with a divergent light source.

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在带有发散光源的旋转对称光束整形系统中实现准直特定轮廓。
本文提出了一种简单的数值方法,用于设计两个非球面,每个非球面由多个分段折射面组成,以便在带有发散光源的光束整形系统中产生具有特定辐照度轮廓的准直光束。然而,在实际制造中,这种性能的提高是以更高的成本和复杂性为代价的。因此,我们提出了第二种算法,它能最大限度地增加通过第二个非球面折射面中心区域的光线数量,从而最大限度地减少实现相同光束整形性能所需的光段总数。通过设计两个非球面透镜,分别产生具有环形和三角形辐照度轮廓的准直输出光束,证明了所提方法的可行性。实验结果表明,光束轮廓与所需的辐照度分布非常接近。总之,实验结果表明,所提出的方法为在具有发散光源的光束形成系统中实现所需的准直剖面提供了一种通用而有效的方法。
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来源期刊
Nanoscale Research Letters
Nanoscale Research Letters NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
15.00
自引率
0.00%
发文量
110
审稿时长
2.5 months
期刊介绍: Nanoscale Research Letters (NRL) provides an interdisciplinary forum for communication of scientific and technological advances in the creation and use of objects at the nanometer scale. NRL is the first nanotechnology journal from a major publisher to be published with Open Access.
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