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学者姓名:邹纯博
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Abstract :
基于离轴四反的方案设计,从同轴反射系统的理论出发,结合高倍率,低波前畸变,以及高杂散光抑制比等特点对天琴望远镜的原理系统进行了优化设计。实现了在捕获±200μrad视场内系统百倍的压缩倍率,其入瞳直径300 mm,波前误差优于λ/80。提高三四镜之间光线转折角度进行杂散光抑制,在保证高质量波前的条件下,其三镜的偏角优化结果为5.5°,且三镜为平面镜的引入,降低了后期加工装调的难度。为了对原理系统的加工装调以及杂散光抑制能力进行验证,建立了该系统下0.5倍的缩比系统,实现了缩比系统的波前误差优于λ/175。经公差分析,原理系统有90%的累积概率其波前误差优于λ/40,满足引力波望远镜的指标要求。
Keyword :
引力波望远镜 引力波望远镜 杂散光抑制 杂散光抑制 离轴四反 离轴四反 高倍率 高倍率
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| GB/T 7714 | 梁荣 , 周晓军 , 邹纯博 et al. 高倍率低波前畸变引力波探测望远镜的光学设计 [J]. | 光子学报 , 2024 , 53 (01) : 162-170 . |
| MLA | 梁荣 et al. "高倍率低波前畸变引力波探测望远镜的光学设计" . | 光子学报 53 . 01 (2024) : 162-170 . |
| APA | 梁荣 , 周晓军 , 邹纯博 , 许黄蓉 , 李晨曦 , 于涛 et al. 高倍率低波前畸变引力波探测望远镜的光学设计 . | 光子学报 , 2024 , 53 (01) , 162-170 . |
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Abstract :
Since the first detection of gravitational wave, gravitational wave astronomy has advanced swiftly. As a crucial component of the detection system, the gravitational wave telescope is obviously crucial. The highly stable laser telescope with a low wavefront error and a high suppression ratio of stray light is a crucial medium for the detection of gravitational waves, as it must not only transmit energy in the order of watt to distant spacecraft, but also receive weak laser signals in the order of picowatt from other satellite base station located millions of kilometers away. Therefore, the backward stray light of the local telescope is required to reach 10(-10) orders of the incident laser power. Considering the requirements of small size, light weight, and high compactness, it is clear that the benefits of a reflective system cannot be compared to those of a transmission design. In general, the coaxial Cassegrain structure and off-axis multi- mirror structure are utilized. The off-axis design is preferred over the coaxial design for gravitational wave telescopes due to advantages such as the ability to optimize multiple parameters, the absence of a central obstruction, and the high energy collection capacity. In this paper, based on the design of off-axis four-mirror and the theory of coaxial reflection system, we designed and optimized the telescope combined with the characteristics of high magnification, low wavefront error and high suppression ratio of stray light. In the capture field of view of +/- 200 mu rad, we realized the compression ratio of 100 of telescope, and the entrance pupil diameter of the principle system is 300 mm, whose design result of wavefront error is less than of lambda/80 because the actual outgoing wavefront error must be less than lambda/40. The system distortion of the edge field is less than 0.056 9%. In order to verify the processing and alignment of the principle system as well as the ability of stray light suppression of it, a 0.5 times scale system is established beneath the system with a wavefront error less than lambda/175. Internal stray light is suppressed by increasing the light turning angle between the tertiary mirror and quaternary mirror on the condition of low wavefront error of./80. The optimized deflection angle of the tertiary mirror is 5.5 degrees, and the tertiary mirror is the plane surface, which can significantly reduce the difficulty of processing and alignment. A simulation of stray light is applied to analyze the stray light of our designed telescope. The steps of stray light analysis consist of the following steps: 1)selection and optimization of the optical structure; 2)model setting of the corresponding reflection, scattering, and absorption surfaces; 3)stray light analysis of the entire system; 4) iterative optimization design; 5) fulfillment of the system's requirements. Therefore, we investigated the optical paths and power of the backscattered stray light. After positioning the field stop in the middle image plane between the secondary mirror and the tertiary mirror, the proportion of the stray light caused by the secondary mirror is the smallest. The stray light energy caused by the tertiary mirror and the quaternary mirror is the largest, which can reach more than 90%. The tolerance of the optical design is also analyzed, and the results of the analysis indicate that the tolerance of the parabolic primary mirror has the strongest impact on the wavefront error of the system. The principle system has a 90% cumulative probability wavefront error less than lambda/40, which can satisfy the design requirement of gravitational wave detection and have the potential to play a significant role in future missions aimed at low wavefront error, high magnification and a high suppression ratio of stray light in the telescope while detecting gravitational waves.
Keyword :
High afocal magnification High afocal magnification Off-axis four-mirror optical system Off-axis four-mirror optical system Suppression of stray light Suppression of stray light Telescope of gravitational wave detection Telescope of gravitational wave detection
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| GB/T 7714 | Liang Rong , Zhou Xiaojun , Zou Chunbo et al. Optical Design of High-compression Ratio and Low-wavefront Error Gravitational Wave Detection Telescope [J]. | ACTA PHOTONICA SINICA , 2024 , 53 (1) . |
| MLA | Liang Rong et al. "Optical Design of High-compression Ratio and Low-wavefront Error Gravitational Wave Detection Telescope" . | ACTA PHOTONICA SINICA 53 . 1 (2024) . |
| APA | Liang Rong , Zhou Xiaojun , Zou Chunbo , Xu Huangrong , Li Chenxi , Yu Tao et al. Optical Design of High-compression Ratio and Low-wavefront Error Gravitational Wave Detection Telescope . | ACTA PHOTONICA SINICA , 2024 , 53 (1) . |
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