Fabrication and Testing of Large Aperture Off-Axis SiC Aspheric Mirror

Xiaokun, 王孝坤 Wang

doi:10.3788/lop49.011201

Cited by 3 publications

(3 citation statements)

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“…随着光电子技术的不断发展，大口径光电系统在激光通信、天文光学、空间光学、地基空间目标探测与识别等高技术领域得到了越来越广泛的应用，其表面面形的检测与评价直接影响制造精度与成像质量 [1][2][3][4][5] ；如果可以按照不同的误差源将误差分离(如重力印透造成的起伏与磨削、测试造成的噪声)，就可以对系统性能进行针对性的提高 [6][7][8][9][10] 。随着支撑与加工技术的进步，各种噪声的大小变得越来越接近，为了更好地对大口径反射镜进行调节与评价，需要引入一种合理的分离方法 [11][12][13][14][15][16][17]…”

Section: 引言unclassified

Large Aperture Reflection Mirror Figure Analysis with Singular Value

Qichang¹,

Jing-xu²,

Fei³

2014

激光与光电子学进展

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We introduce a singular value method to evaluate the mid-and high-frequency error in the large aperture reflecting mirror figure due to gravity print through and noise from processing and measurement. Firstly, we study the singular value method applied to mirror figure evaluaton. Then, the feasibility that the singular value method can be applied to the reflecting mirror figure is verified by numerical simulation. Finally, the proposed method is applied to autual evaluation of the reflecting mirror figure, and the results with highfrequency error in the system eliminated are obtained. The proposed method may help evaluate the large aperture reflecting mirror figure with lower signal to noise ratio.

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Section: 引言unclassified

Large Aperture Reflection Mirror Figure Analysis with Singular Value

Qichang¹,

Jing-xu²,

Fei³

2014

激光与光电子学进展

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“…日地空间的灾害性空间天气进行预警。国际上很早就注重对日冕的观测，同时日冕仪也经历了不断改进的过程。1930 年， Lanzerotti [9] 发明内掩式日冕仪开始了非日全食情况下的日冕观测。1948 年， Evans [10] 首次发明外掩式日冕仪 [10] 。1963 年， Tousey [11] 首次将日冕仪通过探空火箭升空对日观测，1971 年发射的 OSO-7 [12] 装载的日冕仪首次观测到 CMEs 现象。随后 Skylab [13] 、 P78-1 [13] 、 SMM [14] 、 SOHO [15] 、 STEREO [16] 等对日观测卫星上都配备了日冕仪，在空间对日冕及 CMEs 进行观测。在太空对日冕和 CMEs 观测彻底消除了大气散射对日冕观测的影响，使得日冕观测可以延续到距离太阳更远的区域。但目前对日冕进行全周向观测的日冕仪最大视场也仅为 30 个太阳半径(SOHO) [15] ，仅在扇形情况下能够达到对 330 个太阳半径(STEREO) [16] 的日冕及 CMEs 进行观测。对日冕及 CMEs 进行大视场全周向观测有利于对发生太阳耀斑和 CMEs 等活动时的太阳磁场结构信息进行三维重现，从而有利于研究太阳磁场对地影响。由于日冕的亮度远小于太阳光球层的亮度，故需要抑制太阳光球层光线对日冕仪造成的杂散光。不同光学系统对杂散光有不同的抑制方法 [17][18][19][20][21][22][23][24][25][26]…”

Section: -unclassified

Stray Light Suppression of the Large Field of View Coronagraph Optical System

Ming-zhe¹,

Hongxin²,

Zhen-wu³

et al. 2014

激光与光电子学进展

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The large field of view coronagraph is used to image the corona within 215 solar radii. This coronagraph can be used to monitor the solar activity and forecast the violent space weather events. For the need of the stray light suppression, the coronagraph is designed to be an external occulted and secondary imaging system. The optical system has a length of 355.89 mm, a field of view of ± 20°and a focal length of 40 mm. The stray light of the coronagraph is divided into three levels by the intensity. The first level is the direct light from the sun. The second level is the diffracted light from the occulter and external diaphragm. The third level is the reflected light from the inner occulter, the diffracted light from the objective aperture and the scatted light. The three levels of stray light are suppressed respectively. Finally, the stray light level of the coronagraph is 10-9 at the inner field and 10-13 at the outer field.

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“…SHEN Lin-cheng [3] have illustrated a method to reach fine surface with less than 3 microns error in peak-valley values for 330mm×330mm, which adopted the larger grinding depth and smaller feeding speed. WANG Xiao-kun [4] develops a key technologies of polishing and testing SiC aspheric mirror with FSGJ-2 numerical control machine. The PV and RMS values of surface error are 0.148λ and 0.017λ, respectively.…”

mentioning

confidence: 99%

Study on Precision Grinding Technique for Large Size Optical Aspheric Lens

Liu

Huang

2013

AMM

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Large size optical aspheric lens is an important component in optical engineering. Aiming at the demand of precision processing for optical aspheric lens, this paper develops a precision grinding technique for large size optical aspheric lens. Based on precision surface grinding machine (MGK7160), grating-type parallel grinding method is put forward to realize grinding paths planning for optical aspheric lens. An on-machine measurement system is built to obtain surface measurement and evaluation after grinding. In order to ensure machining precision and efficiency, a diamond truer which self-developed is adopted to precision dress for arc diamond wheel. Finally, the experiment of precision grinding and error compensation validates machining accuracy for large size optical aspheric lens.

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Fabrication and Testing of Large Aperture Off-Axis SiC Aspheric Mirror

Cited by 3 publications

References 0 publications

Large Aperture Reflection Mirror Figure Analysis with Singular Value

Large Aperture Reflection Mirror Figure Analysis with Singular Value

Stray Light Suppression of the Large Field of View Coronagraph Optical System

Study on Precision Grinding Technique for Large Size Optical Aspheric Lens

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