2017.09~2020.09 中国科学院大学 机械制造及其自动化 空间惯性传感器敏感结构构建及地面评价方法研究 陈立恒 2020.10获得工学博士学位
2010.09~2013.03 浙江大学 光学工程 机载显示器光学性能自动测量系统的研究 姚军 2013.03获得工学硕士学位
2005.09~2009.06 西南交通大学 机械设计制造及其自动化 翻转式风力发电机减速器试验台 江磊 2009.06获得工学学士学位
第一作者文章:
1.Wang, S.; Chen, L.; Wang, Y.; Zhou, Z.; Qi, K.; Wang, Z. A Space Inertial Sensor Ground Evaluation System for Non-Sensitive Axis Based on Torsion Pendulum. Appl. Sci. 2020, 10, 3090. (SCI,IF:2.217)
2.王少鑫,齐克奇,王玉坤,王智,陈立恒.电极不对称性对惯性传感器性能损失的研究[J].中国光学,2019,12(03):455-462.(EI)
通讯作者文章:
3.Y. Wang, K. Qi, S. Wang*, W. Li, Z. Li and Z. Wang, "Capacitive Sensing and Electrostatic Control System Design and Analysis With a Torsion Pendulum," in IEEE Access, vol. 8, pp. 1021-1030, 2020. (SCI,IF:4.098)
4.Wen-Jie L I, Quan-Quan M U, Shao-Xin W*, et al. Roll angle measurement with a large range based on the photoelectronic autocollimator[J]. Optoelectronics Letters, 2016, 12(001):74-76. (EI)
合作文章:
5.Sun, M. , Shao, L. , Zhu, Y. , Zhang, Y. , Wang, S. , & Wang, Y. , et al. Double‐flow convolutional neural network for rapid large field of view fourier ptychographic reconstruction[J]. Journal of Biophotonics.
6.Qi K, Dai L, Wang S, et al. Design Methodology of a Passive Vibration Isolation System for an Optical System With Sensitive Line-of-Sight[J]. Photonic Sensors, 2021: 1-13.
7.Wang, Z., Yu, T., Zhao, Y., Luo, Z., Sha, W., Fang, C., Wang Y., Wang S., Qi K., Wang Y., Xu, X. Research on telescope ttl coupling noise in intersatellite laser interferometry[J]. Photonic Sensors, 10(3), 265-274.
8.李华东,齐克奇,石强,王少鑫,王智.应用于空间惯性传感器的压电驱动器的性能测试[J].中国光学,2020,13(02):344-353.
9.Wang, Y., Li, D., Wang, R., Jin, C., Wang, S., Mu, Q., ... & Wang, Z. High-bandwidth fine tracking system for optical communication with double closed-loop control method[J]. Optical Engineering, 58(2), 026102.
10.Zhang, C., Sun, W., Mu, Q., Cao, Z., Zhang, X., Wang, S., & Xuan, L. Analysis of aberrations and performance evaluation of adaptive optics in two-photon light-sheet microscopy[J]. Optics Communications, 435, 46-53.
11.Wang, R., Wang, Y., Jin, C., Yin, X., Wang, S., Yang, C., ... & Xuan, L. Demonstration of horizontal free-space laser communication with the effect of the bandwidth of adaptive optics system[J]. Optics Communications, 431, 167-173.
12.Han, G., Cao, Z., Mu, Q., Wang, Y., Li, D., Wang, S., ... & Xuan, L. Isoplanatic patch of the human eye for arbitrary wavelengths[J]. Optics Communications, 410, 811-816.
13.Yin, X., Wang, R., Wang, S., Wang, Y., Jin, C., Cao, Z., & Xuan, L. Evaluation of the communication quality of free-space laser communication based on the power-in-the-bucket method[J]. Applied optics, 57(4), 573-581.
14.Peng, Z. H., Wang, Q. D., Wang, S. X., Yao, L. S., Liu, Y. G., Hu, L. F., ... & Xuan, L. Electro-optical properties of high birefringence liquid crystal compounds with isothiocyanate and naphthyl group[J]. Chinese Physics B, 26(9), 094210.
15.Liu, M., Liu, Y., Peng, Z., Wang, S., Wang, Q., Mu, Q., ... & Xuan, L. Organic Solid-State Tri-Wavelength Lasing from Holographic Polymer-Dispersed Liquid Crystal and a Distributed Feedback Laser with a Doped Laser Dye and a Semiconducting Polymer Film[J]. Materials, 10(5), 509.
16.Zhang, X., Cao, Z., Xu, H., Wang, Y., Li, D., Wang, S., ... & Xuan, L. High precision system modeling of liquid crystal adaptive optics systems[J]. Optics express, 25(9), 9926-9937.
17.Wang, Q., Zhang, G., Liu, Y., Yao, L., Li, D., Wang, S., ... & Peng, Z. Evaluation of phase state and rotational viscosity of fast response liquid crystals using a fully atomistic molecular dynamics[J]. Liquid Crystals, 45(1), 129-135.
18.Wang, Y., Cao, Z., Hu, L., Zhang, X., Li, D., Xu, H., Wang, S., Mu Q., Xuan, L. High-precision identification of a tip–tilt control system for the compensation of time delay[J]. Applied Optics, 56(5), 1431-1437.
19.胡立发,刘超,申文,李大禹,徐焕宇,杨程亮,张佩光,张杏云,王玉坤,王少鑫,穆全全,曹召良,鲁兴海,朱华新,苏宙平,宣丽.自适应光学技术在天文观测中的研究进展[J].中国科学:物理学 力学 天文学,2017,08(v.47):7-16.
20.Zhu, Z., Li, D., Hu, L., Mu, Q., Cao, Z., Wang, Y., Wang, S., Xuan, L. Auto gain control of EMCCD in Shack–Hartmann wavefront sensor for adaptive optics[J]. Optics Communications, 380, 469-475.
21.Zhang, G., Liu, L., Liu, M., Liu, Y., Peng, Z., Yao, L., Wang, Q., Wang S.,... & Xuan, L. Tunable surface-emitting dual-wavelength laser from a blended gain layer with an external holographic grating feedback structure[J]. Optical Materials Express, 6(10), 3320-3329.
22.He, B., Hu, L. F., Li, D. Y., Xu, H. Y., Zhang, X. Y., Wang, S. X., ... & Xuan, L. A high precision phase reconstruction algorithm for multi-laser guide stars adaptive optics[J]. Chinese Physics B, 25(9), 094214.
23.Xuan, L., He, B., Hu, L. F., Li, D. Y., Xu, H. Y., Zhang, X. Y., Wang, S. X., ... & Lu, X. H. Configuration optimization of laser guide stars and wavefront correctors for multi-conjugation adaptive optics[J]. Chinese Physics B, 25(9), 094216.
24.Wang, C., Wang, Y., Hu, L., Wang, S., Cao, Z., Mu, Q., ... & Xuan, L. Hysteresis compensation of the piezoelectric ceramic actuators–based tip/tilt mirror with a neural network method in adaptive optics[J]. Optical Engineering, 55(5), 054107.
25.Shao, L., Cao, Z., Mu, Q., Zhang, P., Yao, L., Wang, S., ... & Xuan, L. Experimental analysis of the fitting error of diffractive liquid crystal wavefront correctors for atmospheric turbulence corrections[J]. Optics Communications, 367, 199-205.
26.Shao, L., Cao, Z., Mu, Q., Hu, L., Wang, Y., Wang, S., & Xuan, L. Design of a dynamic refocus system based on the Seidel aberration theory[J]. Chinese Optics Letters, 14(4), 042202.
27.Wang, C., Hu, L., Xu, H., Wang, Y., Li, D., Wang, S., ... & Xuan, L. Wavefront detection method of a single-sensor based adaptive optics system[J]. Optics express, 23(16), 21403-21413.
28.Wang, C., Hu, L., Wang, Y., Wang, S., Mu, Q., Li, D., ... & Xuan, L. Time delay compensation method for tip–tilt control in adaptive optics system[J]. Applied optics, 54(11), 3383-3388.
29.Cao, Z., Qu, Q., Wang, Y., Xu, H., Wang, S., Yang, C., & Xuan, L. Shape based zonal wave-front reconstruction for arbitrary shape pupils[J]. Optics Communications, 336, 160-165.
30.李文杰,王少鑫,穆全全,等.用等效应力法分析温度变化对胶粘反射镜面形的影响[J].光子学报,2015,44(12):1212001-1212001.
31.李文杰,穆全全,王少鑫,等.哈特曼探测器的高精度调节机构[J].光学精密工程,2015,023(010):2852-2859.
32.王玉坤,胡立发,王冲冲,等.自适应光学系统中倾斜镜的自适应逆控制[J].光学精密工程,2015(08):2203-2210.
33.闵林,姚丽双,王玉坤,等.单氟取代苯基二苯乙炔基异硫氰酸酯的合成与液晶性质研究[J].液晶与显示,2015.
申请专利:
王少鑫,齐克奇,王玉坤,王智.一种六自由度惯性传感器,申请号:201910987003.1(发明专利)
授权专利:
齐克奇,王少鑫,王智等.一种刚性与柔性导向相结合的角振动台.专利号:CN110907110B(发明专利)
宣丽,李文杰,穆全全,王少鑫等.一种抑制轴系倾角回转误差的转轴转角的测量方法.专利号:ZL201510789925.3(发明专利)
宣丽,李大禹,张佩光,王少鑫等.液晶-变形镜的混合式自适应光学系统设计方法,专利号ZL201610858689.0(发明专利)
宣丽,李大禹,张佩光,王少鑫等.哈特曼波前探测电子倍增增益的自适应控制方,法专利号:ZL 20160423714.2(发明专利)