发表论文
[1] yongfeng zhang, xian hao, changhui rao. Dispersed fringe cophasing method based on principal component. Optics Letters[J]. 2023, 48(3): 696-699, [2] Li, Xiaoyang, Yang, Xu, Wang, Shengqian, Li, Bincheng, Xian, Hao. Piston Error Extraction from Dual-Wavelength Interference Patterns Using Phase Retrieval Technique. PHOTONICS[J]. 2022, 9(2): http://dx.doi.org/10.3390/photonics9020111.[3] Zhang, Yongfeng, Wang, Shengqian, Xian, Hao, Rao, Changhui. Analytical calibration of slope response of Zernike modes in a Shack-Hartmann wavefront sensor based on matrix product. OPTICS LETTERS[J]. 2022, 47(6): 1466-1469, http://dx.doi.org/10.1364/OL.452352.[4] Li, Xiaoyang, Yang, Xu, Wang, Shengqian, Li, Bincheng, Xian, Hao. PERFORMANCE COMPARISON OF PISTON ERROR EXTRACTION METHODS FROM INTERFERENCE PATTERNS. JOURNAL OF RUSSIAN LASER RESEARCH[J]. 2022, 43(5): 634-643, [5] Li, Xiaoyang, Yang, Xu, Wang, Shengqian, Li, Bincheng, Xian, Hao. The piston error recognition technique used in the modified Shack-Hartmann sensor. OPTICSCOMMUNICATIONS[J]. 2021, 501: http://dx.doi.org/10.1016/j.optcom.2021.127388.[6] Zhang, Yongfeng, Wang, Shengqian, Xian, Hao, Rao, Changhui. Unified analytical method for Zernike coefficient transformation of scaled, rotated, and translated pupils based on Shack's vector multiplication. JOURNAL OF THE OPTICAL SOCIETY OF AMERICA A-OPTICS IMAGE SCIENCE AND VISION[J]. 2021, 38(8): 1131-1139, [7] 鲜文挺, 樊新龙, 周子夜, 冯忠毅, 李杨, 陈莫, 王胜千, 鲜浩. 拼接主镜共相校正装置设计与测试. 应用光学[J]. 2021, 42(1): 36-42, http://lib.cqvip.com/Qikan/Article/Detail?id=7104069630.[8] Zhang, Yongfeng, Xian, Hao. Coarse co-phasing method based on slope of visibility-enhanced dispersed fringe pattern for segmented telescope. OPTICS COMMUNICATIONS[J]. 2020, 459: http://dx.doi.org/10.1016/j.optcom.2019.124998.[9] 徐兴贵, 冉兵, 杨平, 鲜浩, 刘永. 改进形状上下文的湍流杂波形状目标匹配识别. 激光与光电子学进展[J]. 2020, 57(21): 62-70, http://lib.cqvip.com/Qikan/Article/Detail?id=7103596667.[10] Rui, Daoman, Liu, Chao, Chen, Mo, Lan, Bin, Xian, Hao. Probability enhancement of fiber coupling efficiency under turbulence with adaptive optics compensation. OPTICAL FIBER TECHNOLOGY[J]. 2020, 60: http://dx.doi.org/10.1016/j.yofte.2020.102343.[11] Rui, Daoman, Liu, Chao, Chen, Mo, Lan, Bin, Xian, Hao. Method to enhance the single mode fiber coupling efficiency for obscured receiver by beam shaping. PHYSICA SCRIPTA[J]. 2020, 95(3): https://www.webofscience.com/wos/woscc/full-record/WOS:000510646400001.[12] Rao, ChangHui, Gu, NaiTing, Rao, XueJun, Li, Cheng, Zhang, LanQiang, Huang, JinLong, Kong, Lin, Zhang, Ming, Cheng, YunTao, Pu, Yi, Bao, Hua, Guo, YouMing, Liu, YangYi, Yang, JinSheng, Zhong, LiBo, Wang, ChangJun, Fang, Kai, Zhang, XiaoJun, Chen, DongHong, Wang, Cheng, Fan, XinLong, Yan, ZhiWu, Chen, KeLe, Wei, XiYa, Zhu, Lei, Liu, Hong, Wan, YongJian, Xian, Hao, Ma, WenLi. First light of the 1.8-m solar telescope-CLST. SCIENCE CHINA-PHYSICS MECHANICS & ASTRONOMY[J]. 2020, 63(10): 133-134, http://lib.cqvip.com/Qikan/Article/Detail?id=7102735852.[13] Ge, Yingjian, Wang, Shengqian, Xian, Hao. Phase diversity method based on an improved particle swarm algorithm used in co-phasing error detection. APPLIED OPTICS[J]. 2020, 59(31): 9735-9743, https://www.webofscience.com/wos/woscc/full-record/WOS:000583718000013.[14] Wang, XiaoLi, Chang, Liang, Wang, Lei, Ji, HangXin, Xian, Hao, Tang, Zhen, Xin, YuXin, Wang, ChuanJun, He, ShouSheng, Zhang, JuJia, Lun, BaoLi, Wei, Kai, Li, XiQi, Jiang, XiaoJun, Wang, HuiJuan, Li, HongBin, Mao, JiRong. The Coude Echelle Spectrograph for the Lijiang 1.8m telescope. RESEARCH IN ASTRONOMY AND ASTROPHYSICS[J]. 2020, 20(3): 76-83, http://lib.cqvip.com/Qikan/Article/Detail?id=7101367376.[15] 张永峰, 鲜浩. 间隙及掩模偏心对采用理想模板窄带算法共相拼接镜的影响. 激光与光电子学进展[J]. 2020, 57(8): 235-245, https://kns.cnki.net/KCMS/detail/detail.aspx?dbcode=CJFQ&dbname=CJFDLAST2020&filename=JGDJ202008028&v=MjQ3ODVMRzRITkhNcDQ5SGJJUjhlWDFMdXhZUzdEaDFUM3FUcldNMUZyQ1VSN3FlWitSdkZpamdWNy9LTHlyUFo=.[16] Li, Min, Liu, Xin, Zhang, Ang, Xian, Hao. Testing of the stochastic parallel radient descent algorithm for the alignment of a two-mirror telescope. JOURNAL OF OPTICAL TECHNOLOGY[J]. 2020, 87(5): 276-283, https://www.webofscience.com/wos/woscc/full-record/WOS:000581263000004.[17] Zhang, Yongfeng, Xian, Hao. Piston sensing for a segmented mirror system via a digital dispersed fringe generated by wavelength tuning. OPTICS LETTERS[J]. 2020, 45(5): 1051-1054, https://www.webofscience.com/wos/woscc/full-record/WOS:000522833500002.[18] Zhou, Ziye, Feng, Zhongyi, Xian, Hao, Huang, Linhai. Single preloaded piezoelectric-ceramic-stack-actuator-based fast steering mirror with an ultrahigh natural frequency. APPLIED OPTICS[J]. 2020, 59(13): 3871-3877, https://www.webofscience.com/wos/woscc/full-record/WOS:000537846600042.[19] Huang, Jian, Zhou, Hong, Yang, Jinsheng, Liu, Chao, Xian, Hao. Temporal statistics of residual wavefront variance of an adaptive optics system. JOURNAL OF OPTICS[J]. 2019, 21(12): https://www.webofscience.com/wos/woscc/full-record/WOS:000499371100001.[20] Dai, Xiaolin, Xian, Hao, Tang, Jinlong, Zhang, Yudong. Active correction experiment on a 1.2 m thin primary mirror. JOURNAL OF OPTICAL TECHNOLOGY[J]. 2019, 86(6): 341-349, https://www.webofscience.com/wos/woscc/full-record/WOS:000483374400004.[21] Zhang, Yongfeng, Xian, Hao. Optical transfer function for incomplete circular pupil. OPTIK[J]. 2019, 198: http://dx.doi.org/10.1016/j.ijleo.2019.162957.[22] Zhang, Ying, Yuan, Yongtao, Zhou, Hong, Liu, Hong, Fang, Jingzhong, Zhang, Ang, Xian, Hao. Lightweight unimorph mirror using an optical replication method. OPTICAL ENGINEERING[J]. 2019, 58(8): http://dx.doi.org/10.1117/1.OE.58.8.085101.[23] Dai, Xiaolin, Xian, Hao, Tang, Jinlong, Zhang, Xuejun, Zhang, Yudong. Modification of the support and active correction method for an experimental thin primary mirror. JOURNAL OF MODERN OPTICS[J]. 2019, 66(18): 1841-1849, [24] Xinggui Xu, Ping Yang, Hao Xian, Yong Liu. Robust moving objects detection in long-distance imaging through turbulent medium. INFRARED PHYSICS AND TECHNOLOGY[J]. 2019, 100: 87-98, http://dx.doi.org/10.1016/j.infrared.2019.02.014.[25] Lan, Bin, Liu, Chao, Rui, Daoman, Chen, Mo, Shen, Feng, Xian, Hao. The topological charge measurement of the vortex beam based on dislocation self-reference interferometry. PHYSICA SCRIPTA[J]. 2019, 94(5): https://www.webofscience.com/wos/woscc/full-record/WOS:000460533100001.[26] Xu, Xinggui, Yang, Ping, Liu, Yong, Xian, Hao, Xu, Bing. Geometric distortion correction of long-range imaging containing moving objects. JOURNAL OF OPTICS[J]. 2019, 21(1): [27] 李敏, 刘鑫, 张昂, 鲜浩. Telescope alignment based on the sharpness function of under-sampled images. 中国光学快报:英文版[J]. 2019, 17(6): 31-35, https://www.webofscience.com/wos/woscc/full-record/WOS:000474343800007.[28] Min Li, Xin Liu, Ang Zhang, Hao Xian. Telescopes Alignment Using the Sharpness Function Method Based on Undersampled Images. IEEE PHOTONICS JOURNAL[J]. 2019, 11(1): 1-14, https://doaj.org/article/20efba7600f04850a5ad84c26d8f76c0.[29] Zhang, Yongfeng, Xian, Hao. Piston sensing via a dispersed fringe sensor with a merit-function-based active scanning algorithm at low light levels. CHINESE OPTICS LETTERS[J]. 2019, 17(12): 27-31, http://lib.cqvip.com/Qikan/Article/Detail?id=7101033701.[30] Li, Hailong, Min, Pan, Song, Ning, Zhang, Aifang, Zhou, Jiajun, Xian, Hao, Liu, Hong, Fang, Jingzhong. Rapid synthesis of AlON powders by low temperature solid-state reaction. CERAMICS INTERNATIONAL[J]. 2019, 45(7): 8188-8194, http://dx.doi.org/10.1016/j.ceramint.2019.01.121.[31] Chen, Mo, Liu, Chao, Rui, Daoman, Xian, Hao. Experimental results of atmospheric coherent optical communications with adaptive optics. OPTICS COMMUNICATIONS[J]. 2019, 434: 91-96, http://dx.doi.org/10.1016/j.optcom.2018.10.013.[32] 马晓燠, 樊志华, 杨奇龙, 饶长辉, 魏凯, 鲜浩. 基于多阳极光电倍增管的阵列型光子计数器. 量子光学学报[J]. 2019, 87-93, http://lib.cqvip.com/Qikan/Article/Detail?id=76907188504849574849484950.[33] Zhang, Yongfeng, Xian, Hao. Orthonormal polynomials in segmented optical pupils. OPTIK[J]. 2019, 197: http://dx.doi.org/10.1016/j.ijleo.2019.163003.[34] Li, Min, Liu, Xin, Zhang, Ang, Xian, Hao. Telescope alignment based on the sharpness function of under-sampled images. CHINESE OPTICS LETTERS[J]. 2019, 17(6): https://www.webofscience.com/wos/woscc/full-record/WOS:000474343800007.[35] Chen, Mo, Liu, Chao, Rui, Daoman, Xian, Hao. Highly sensitive fiber coupling for free-space optical communications based on an adaptive coherent fiber coupler. OPTICS COMMUNICATIONS[J]. 2019, 430: 223-226, http://dx.doi.org/10.1016/j.optcom.2018.08.025.[36] Dai, Xiaolin, Xian, Hao, Tang, Jinlong, Zhang, Xuejun, Zhang, Yudong. Study on a new floatation support algorithm based on a 1.2 m thin primary mirror. JOURNAL OF OPTICAL TECHNOLOGY[J]. 2018, 85(9): 551-558, https://www.webofscience.com/wos/woscc/full-record/WOS:000444956000006.[37] Chen, Mo, Liu, Chao, Rui, Daoman, Xian, Hao. Performance verification of adaptive optics for satellite-to-ground coherent optical communications at large zenith angle. OPTICS EXPRESS[J]. 2018, 26(4): 4230-4242, https://www.webofscience.com/wos/woscc/full-record/WOS:000426268500045.[38] Chen, Mo, Liu, Chao, Rui, Daoman, Xian, Hao. Experimental results of 5-Gbps free-space coherent optical communications with adaptive optics. OPTICS COMMUNICATIONS[J]. 2018, 418: 115-119, http://dx.doi.org/10.1016/j.optcom.2018.03.003.[39] Li Bin, Wu Jian, Liu Yande, Xie Fengyun, Chen Mo, Xian Hao. Co-phasing Experiment of Active Optics for Segmented Mirror. ACTA PHOTONICA SINICA[J]. 2018, 47(2): [40] Dai, Xiaolin, Xian, Hao, Tang, Jinlong, Zhang, Xuejun, Zhang, Yudong. Study on a new floatation support algorithm based on a 1.2 m thin primary mirror. JOURNAL OF OPTICAL TECHNOLOGY[J]. 2018, 85(9): 551-558, https://www.webofscience.com/wos/woscc/full-record/WOS:000444956000006.[41] 鲜浩, 陈莫, 于文豪, 唐金龙, 李斌. 拼接误差对拼接镜成像质量的影响. 激光与光电子学进展[J]. 2017, 54(7): 179-188, http://ir.ioe.ac.cn/handle/181551/8958.[42] Li, Bin, Yu, WenHao, Chen, Mo, Tang, JinLong, Xian, Hao. Co-focus experiment of segmented mirror. CHINESE PHYSICS B[J]. 2017, 26(6): http://ir.ioe.ac.cn/handle/181551/8799.[43] Li, Bin, Yu, WenHao, Tang, JinLong, Xian, Hao. Theory and experiment of phasing detection by use of two wavelengths. APPLIED OPTICS[J]. 2017, 56(1): 1-7, http://ir.ioe.ac.cn/handle/181551/8772.[44] 鲜浩, 陈莫, 李斌, 于文豪. 拼接主镜主动控制实验研究. 激光与光电子学进展[J]. 2017, 54(10): 216-223, http://ir.ioe.ac.cn/handle/181551/8963.[45] Li, Bin, Yu, WenHao, Chen, Mo, Tang, JinLong, Xian, Hao. Co-phasing experiment of a segmented mirror using a combined broadband and two-wavelength algorithm. APPLIED OPTICS[J]. 2017, 56(32): 8871-8879, http://ir.ioe.ac.cn/handle/181551/8779.[46] 鲜浩, 刘超, 陈莫, 吴子开. 基于光栅螺旋扫描和SPGD算法的单模光纤耦合方法. 激光与光电子学进展[J]. 2017, 54(6): 76-84, http://ir.ioe.ac.cn/handle/181551/8956.[47] Xian Hao, Chen Mo, Li Bin, Yu Wenhao. Analysis and design of segment control system in segmented primary mirror. 0277-786Xnull. 2017, 10463: 104631T-, http://ir.ioe.ac.cn/handle/181551/9026.[48] 鲜浩, 张俊波, 张昂, 李敏. 大口径望远镜主镜径向偏心误差检测技术. 激光与光电子学进展[J]. 2017, 54(9): 182-189, http://ir.ioe.ac.cn/handle/181551/8962.[49] Zhang Yudong, Zhang Xuejun, Xian Hao, Dai Xiaolin. Study on an active correction algorithm of primary mirror. 1757-8981null. 2017, 242(1): 012086-, http://ir.ioe.ac.cn/handle/181551/9011.[50] Liu, Chao, Chen, Mo, Chen, Shanqiu, Xian, Hao. Adaptive optics for the free-space coherent optical communications. OPTICS COMMUNICATIONS[J]. 2016, 361: 21-24, http://dx.doi.org/10.1016/j.optcom.2015.10.033.[51] 邵文毅, 鲜浩. 非均匀湍流路径下光束分层传输缩比实验研究. 中国激光[J]. 2016, 43(8): 0805001_1-0805001_12, http://sciencechina.cn/gw.jsp?action=detail.jsp&internal_id=5782918&detailType=1.[52] Guo, Youming, Zhang, Ang, Fan, Xinlong, Rao, Changhui, Wei, Ling, Xian, Hao, Wei, Kai, Zhang, Xiaojun, Guan, Chunlin, Li, Min, Zhou, Luchun, Jin, Kai, Zhang, Junbo, Deng, Jijiang, Zhou, Longfeng, Chen, Hao, Zhang, Xuejun, Zhang, Yudong. First on-sky demonstration of the piezoelectric adaptive secondary mirror. OPTICS LETTERS[J]. 2016, 41(24): 5712-5715, http://ir.ioe.ac.cn/handle/181551/8431.[53] Zhou LongFeng, Zhang Ang, Zhang JunBo, Fan XinLong, Wei Ling, Chen ShanQiu, Xian Hao. Experimental research of alignment error correction by aspheric mirror based on the function of imaging quality. 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