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Qiu Lirong, Liu Dali, Zhao Weiqian *, Han Cui, Sheng Zhong. Real-time laser differential confocal microscopywithout sample reflectivity effects. Optics Express. v 22, n 18, 2014.9.8, p21626-21640(SCI源)
Qiu Lirong, Zhao Weiqian. Confocal multiple-transmitted-light interference microscope with increased lateral resolution. Optical Engineering. v 52, n 10,2013.10.23, 100504(SCI、EI双检)
Qiu Lirong, Zhao Weiqian*, Feng Zhengde. Approach to higher spatial resolutions in a laser probe measurement system using a phase-only pupil filter. Optical Engineering. v 45, n 11, 2006.11, p113601-113608(SCI、EI双检)
Qiu Lirong, Zhao Weiqian*, Xuemei Ding, Dingguo Sha. Effect of fabrication errors on lateral super-resolution property of a three-zone pupil filter. Optik-International Journal for Light and Electron Optics. v 120, n 4, 2009.2, p 151-157 (SCI、EI双检)
Qiu Lirong, Zhao Weiqian, Feng Zhengde, Ding Xuemei. A lateral superresolution differential confocal technology with phase-only pupil filter. Optik—International Journal for Light and Electron Optics. v 118, n 2, 2007.2, pp67-73(SCI、EI双检)
Qiu Lirong, Zhao Weiqian, Ding Xuemei. Effect of fabrication errors on axial super-resolution property of a three-zone pupil filter. Optik—International Journal for Light and Electron Optics. v 117, n 12, 2006.12, p563-568 (SCI、EI双检)
YangJiamiao, Qiu Lirong,* Zhao Weiqian, Shen Yang, Jiang Hongwei. Laser differential confocal paraboloidal vertex radius measurement. Optics Letters, v 39, n 4, 2014.2.15, p830-833(SCI、EI双检)
Yang Jiamiao, Qiu Lirong*, Zhao Weiqian. Laser differential reflection-confocal focal-length measurement. Optics Express. v 20, n 23, 2012. 11.5,p26027-26036(SCI、EI双检)
Hou Maosheng, Qiu Lirong,* Zhao Weiqian, Wang Fan, Liu Entao, Ji Lin. Single-step spatial rotation error separation technique for the ultraprecision measurement of surface profiles. Applied Optics, v 53, n 3, 2014.1.20, p487-495(SCI、EI双检)
Yang Jiamiao, Qiu Lirong*, Zhao Weiqian, Shao Rongjun, Li Zhigang. Measuring the lens focal length by laser reflection-confocal technology. Applied Optics. v52, n 16, 2013.6.1, p 3812-3817 (SCI、EI双检)
Sun Ruoduan, Qiu Lirong*, Yang Jiamiao, Zhao Weiqian. Laser differential confocal radius measurement system. Applied Optics. v51, n26, 2012.9.10, p 6275-6281 (SCI、EI双检)
Wang Yun, Qiu Lirong*,Yang Jiamiao, Zhao Weiqian. Measurement of the refractive index and thickness for lens by confocal technique. Optik - International Journal for Light and Electron Optics. v 124, n 17, 2013.9, p 2825–2828(SCI、EI双检)
*Zhao Weiqian, Qiu Lirong, Feng Zhengde. Effect of fabrication errors on superresolution property of a pupil filter. Optics Express, v 14, n 16, 2006.8, p7024-7036 (SCI、EI双检)
Wang Yun, Qiu Lirong, Song Yanxing, Zhao Weiqian*. Laser differential confocal lens thickness measurement. Measurement Science and Technology, v 23, n 5, 2012.5, p055204 (SCI、EI双检)
*Zhao Weiqian, Qiu Lirong, Chen Shanshan. Image restoration phase-filtering lateral superresolution confocal microscopy. Chinese Physics Letters. v 23, n 4, 2006.4, p856~859 (SCI、EI双检)
Zhao Weiqian, Guo Junjie, Qiu Lirong*, Wang Yun, Meng Jie, Gao Dangzhong. Low transmittance ICF capsule geometric parameters measurement using laser differential confocal technique. Optics Communications. v 292, n7, 2013.4.1, p 62-67 (SCI、EI双检)
赵维谦, 唐芳, 邱丽荣*, 刘大礼. 轴对称矢量光束聚焦特性研究现状及其应用. 物理学报, v 62, n5, 2013.3.5, p054201(SCI、EI双检)
Zhao Weiqian,liu chao, Qiu Lirong. Laser divided-aperture differential confocal sensing technology with improved axial resolution. Optics Express. v 20, n 23, 2012. 11.5,p25979-25989 (SCI、EI双检)
Zhao Weiqian,Sun Ruoduan, Qiu Lirong, Sha Dingguo. Laser differential confocal radius measurement. Optics Express. v 18, n3, 2010.2.1, p2345-2360 (SCI、EI双检)
Zhao Weiqian,Sun Ruoduan, Qiu Lirong, Sha Dingguo. (Laser differential confocal) Lenses axial space ray tracing measurement. Optics Express. v 18, n4, 2010.2.15,p3608-3617 (SCI、EI双检)
Zhao Weiqian,Sun Ruoduan, Qiu Lirong, Sha Dingguo. Laser differential confocal ultra-long focal length measurement. Optics Express. v 17, n22, 2009.10.26,p20051-20062 (SCI、EI双检)
Zhao Weiqian, Tan Jiubin, Qiu Lirong. Bipolar absolute heterodyne confocal approach to higher spatial resolution. Optics Express. v 12, n 21. 2004.10.18, p5013 – 5021 (SCI、EI双检)
Zhao Weiqian, Tan Jiubin, Qiu Lirong. Tri-heterodyne confocal microscope with axial superresolution and higher SNR. Optics Express. v 12, n 21. 2004.10.18 , p5191-5197 (SCI、EI双检)
Liu Dali, Wang Yun,* Qiu Lirong, Mao Xinyue, Zhao Weiqian. Confocal pore size measurement based on super-resolution image restoration. Applied Optics, v 53, n25, 2014.9.1, p5694-5700 (SCI源)
Zhao Weiqian, Wang Yun, Qiu Lirong. Laser differential confocal lens refractive index measurement. Applied Optics. v 50, n 24, 2011.8.20, p 4769-4778 (SCI、EI双检)
Zhao Weiqian, Jiang Qin, Qiu Lirong, Liu Dali. Dual-axes differential confocal microscopy with high axial resolution and long working distance. Optics Communications. V 284, n1, 2011.1, p15-19 (SCI、EI双检)
Zhao Weiqian,Feng zhengde,Qiu Lirong.A shaped annular beam tri-heterodyne confocal microscope with good anti-environmental interference capability.Chinese Physics.v16, n 6, 2007.6, p1624-1631 (SCI、EI双检)
*Zhao Weiqian, Tan Jiubin, Qiu Lirong,Jin Peng. SABCMS, A new approach to higher lateral resolution of laser probe measurement. Sensors and Actuators A-Physical. v 120, n 1, 2005.4.29, p17-25 (SCI、EI双检)
Zhao Weiqian, Tan Jiubin, Qiu Lirong. Improvement of confocal microscope performance by shaped annular beam and heterodyne confocal techniques. Optik-International Journal for Light and Electron Optics. v 116, n 3, 2005.4, p111-117 (SCI、EI双检)
*Zhao Weiqian, Tan Jiubin, Qiu Lirong, Zou Limin. A new laser heterodyne confocal probe for ultraprecision measurement of discontinuous contours. Measurement Science and Technology, v 16, n 2, 2005.2, p 497-504 (SCI、EI双检)
邱丽荣、李佳、赵维谦、杨佳苗. 激光共焦透镜曲率半径测量系统. 光学精密工程, v 21. n 2, 2013.2, p227-233 (EI检索)
邱丽荣,丁雪梅,赵维谦. 一种用于非连续三维曲面测量的偏振光式差动像散传感技术. 光电子.激光, v 16, n 5, 2005.5.15, p584-587 (EI检索)
郭俊杰,邱丽荣*,王允,孟捷,高党忠。用于惯性约束聚变靶丸测量的激光差动共焦传感器[J]. 光学精密工程. v 21. n3, 2013.3, p2436-2443 (EI检索)
李雅灿,邱丽荣*,张鹏嵩,沙定国,赵维谦.便携式多光轴平行性检校系统的研制[J].中国激光. v 39, n 10, 2012.10, p**-1~5 (EI检索)
史立波,邱丽荣,王允,赵维谦. 激光差动共焦透镜中心厚度测量系统的研制[J], 仪器仪表学报. v 33, n 3, 2012.3, p683-688 (EI检索)
江琴, 邱丽荣*, 赵维谦, 沙定国. 基于CCD虚拟针孔探测的双轴共焦显微技术[J]. 光学技术. v 36, n 5, 2010.9, p 658-661
江琴, 邱丽荣*, 赵维谦, 沙定国. 点探测器位置对双轴共焦显微技术的影响[J]. 激光与光电子学进展. v 47, n 8, 2010.8, p72-75
李佳,邱丽荣*,杨佳苗,刘大礼,赵维谦. 共焦元件测量系统数据处理中的高斯滤波算法[J]. 光学技术. v 39, n 2, 2013, p157-162
赵维谦,邱丽荣, 丁雪梅,谭久彬. 拓展差动共焦显微系统量程范围的方法与措施. 光电子.激光. v 15, n 9, 2004, p1084-1087
刘大礼, 王允*, 邱丽荣, 赵维谦. 差动共焦显微边缘轮廓检测与定位方法. 中国激光. v41, n 10, 2014, p**
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