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赵维谦
2023-05-06 11:53
  • 赵维谦
  • 赵维谦 - 教授-北京理工大学-光电学院-个人资料

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个人简历


个人简介
  赵维谦,男,博士,1966年9月出生于新疆伊宁,长江学者特聘教授(2011年度),博士生/硕士导师,国务院政府津贴专家,国务院学位委员会“仪器科学与技术”学科评议组成员,校信息与电子学部副主任。曾入选国家“万人计划”首批百千万工程领军人才计划、教育部特聘教授、新世纪百千万人才工程国家级人选和教育部新世纪优秀人才支持计划等,获茅以升北京青年科技奖、黑龙江省青年科技奖、全国优秀博士论文提名奖和黑龙江省优秀博士论文奖等。
  长期从事精密光电成像/检测技术与仪器装备方面的原理方法、关键技术以及仪器装备系统集成领域的教学和科研工作,主要研究包括精密光电成像/测试技术与装备、激光共焦/干涉成像与检测技术、高空间分辨光谱成像与探测技术、超分辨成像技术、纳米测控技术与系统等方面。主持和承担各类项目40余项,负责项目经费累计过亿元,近年主持了包括国家重大科学仪器设备开发专项项目、国家863计划主题项目、国家自然科学基金科学仪器研究专项、国家自然基金重点项目、国家自然科学基金科学仪器研究、重点研发专项任务、GF技术基础项目、民用航天项目和装发重点基金等重大/重点类项目。
  研究成果曾获1项国家技术发明一等奖(排名2)、1项国家技术发明二等奖(排名1)、3项GF科学技术奖一等奖(排名2、2、3)、1项中国计量测试学会一等奖(排名1)和1项GF技术发明二等奖(排名1)等10余项科技成果奖励;在国内外重要学术刊物上发表学术论文150余篇,其中被SCI检索80余篇,在Optics Express和Optics Letters本领域国际著名期刊上发表论文20余篇;申报中外发明专利150余项,其中已授权100余项。
  指导毕业研究生80余名,其中博士18名;指导在校研究生20余名,其中博士生10名;指导博士后3名,其中出站2名。指导研究生曾获中国仪器仪表学会优秀博士论文奖、中国机械工程学会优秀博士论文奖和中国仪器仪表学会奖学金特等奖等重要奖项。
  目前兼任中国仪器仪表学会理事、中国计量学会理事、中国光学工程学会理事、全国光学测试专委会副主任委员、全国几何量专业测试专委会副主任委员等。担任“光谱学与光谱分析”期刊编委,Optics Letters、Optics Express、Applied Optics和Measurement Science and Technology等多种国际期刊杂志审稿人等。

2. 教育经历
1984.09-1988.07 哈尔滨科技大学 精密仪器,学士;
1993.09-1995.03 哈尔滨工业大学 精密仪器及机械,硕士;
1997.09-2003.07 哈尔滨工业大学 仪器科学与技术学科,博士。

3. 工作经历
1988.08-1995.03,哈尔滨汽轮机厂,助工、工程师;
1995.04-1997.06,哈尔滨工业大学,讲师;
1997.07-2002.07,哈尔滨工业大学,副教授、硕士生导师;
2002.08-2006.08,哈尔滨工业大学,教授;
2004.03-2006.12,哈尔滨工业大学,博士生导师;
2007.01至今,北京理工大学,教授,仪器科学与技术学科硕士生导师和博士生导师;
2008.07至今,北京理工大学,二级教授;
2012.09至今,教育部特聘教授;
2014.09至今,北京理工大学,教授,光学工程学科博士生导师等

研究领域


精密光电测试技术与装备、激光共焦/干涉成像与检测技术、纳米测控技术等"专利
申请中国发明专利、美国发明专利和欧洲发明专利70余项,其中以第一发明人身份授权的40余项专利如下:
1)一种高空间分辨共焦拉曼光谱探测方法与装置,专利号:ZL 201310027359.3;
2)差动共焦系统球差测量方法,专利号:ZL 201210140889.4;
3)反射式差动共焦透镜中心厚度测量方法,专利号:ZL 201210190779.9;
4)共焦系统球差测量方法,专利号:ZL 201210140645.6;
5)一种基于空气静压轴承技术的大范围调倾调心工作台,专利号:ZL 201210065215.2;
6)反射式共焦透镜中心厚度测量方法,专利号:ZL 201210191601.6;
7)共焦干涉定焦及曲率半径测量方法,专利号:ZL 201110038297.7;
8)差动共焦干涉元件多参数测量方法与装置,专利号:ZL 201010621159.7;
9)可兼顾分辨力和量程的激光差动共焦theta扫描检测方法,专利号:ZL 201010541404.3;
10)分割焦斑探测的超分辨双轴差动共焦测量方法与装置

近期论文


代表性论文
  在Optics Express、Optics Letters、Applied Optics 、Review of Scientific Instruments、Sensors and Actuators A-Physical 、Measurement Science and Technology和Optics Communications等国际期刊及国内刊物上发表学术论文100余篇, SCI和EI检索100余篇次,其中SCI IF>3的论文10篇,发表的主要SCI检索论文如下:
1)Zhao Weiqian(赵维谦)*,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);
2)Zhao Weiqian(赵维谦)*,Sun Ruoduan, Qiu Lirong, Sha Dingguo. Laser differential confocal radius measurement. Optics Express. v18, n3, 2010.2.1, p2345-2360. (SCI、EI双检);
3)Zhao Weiqian(赵维谦)*,Sun Ruoduan, Qiu Lirong, Sha Dingguo. (Laser differential confocal) Lenses axial space ray tracing measurement. Optics Express. v18, n4, 2010.2.15,p3608-3617. (SCI、EI双检);
4)Zhao Weiqian(赵维谦)*,Sun Ruoduan, Qiu Lirong, Sha Dingguo. Laser differential confocal ultra-long focal length measurement. Optics Express. v17, n22, 2009.10.26,p20051-20062. (SCI、EI双检);
5)Zhao Weiqian(赵维谦)*, 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);
6)Zhao Weiqian(赵维谦)*, 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);
7)Zhao Weiqian(赵维谦)*, 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);
8)Qiu Lirong, Liu Dali, Zhao Weiqian(赵维谦)*, 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、EI双检);
9)Yang Jiamiao, Qiu Lirong*, Zhao Weiqian(赵维谦). Laser differential reflection-confocal focal-length measurement. Optics Express. v 20, n 23, 2012. 11.5,p26027-26036(SCI、EI双检);
10)YangJiamiao, Qiu Lirong*, Zhao Weiqian(赵维谦), Shen Yang. Laser differential confocal paraboloidal vertex radius measurement. Optics Letters, v 39, n 4, 2014.2.15, p830-833(SCI、EI双检);
11)Zhao Weiqian(赵维谦), 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);
12)Hou Maosheng, Qiu Lirong*, Zhao Weiqian(赵维谦), Wang Fan. 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);
13)Yang Jiamiao, Qiu Lirong*, Zhao Weiqian(赵维谦), 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);
14)Liu Dali, Wang Yun*, Qiu Lirong, Mao Xinyue, Zhao Weiqian(赵维谦). Confocal pore size measurement based on super-resolution image restoration. Applied Optics, v 53, n25, 2014.9.1, p5694-5700 (SCI源);
15)Sun Ruoduan, Qiu Lirong*, Yang Jiamiao, Zhao Weiqian(赵维谦). Laser differential confocal radius measurement system. Applied Optics. v51, n26, 2012.9.10, p 6275-6281 (SCI、EI双检);
16)Zhao Weiqian(赵维谦)*,Tan Jiubin, Qiu Lirong, Limin Zou. Enhancing laser beam directional stability by single-mode optical fiber and feedback control of drifts. Review of Scientific Instruments. v76, n3, 2005.3, p 036101 (SCI、EI双检);
17)Zhao Weiqian(赵维谦)*,Xue Zi, Tan Jiubin. SSEST: A new approach to higher accuracy cylindricity measuring instrument. International Journal of Machine Tools and Manufacture. v 46, n14, 2006.11, p1869-1878.(SCI、EI双检);
18)Zhao Weiqian(赵维谦)*, 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);
19)Zhao Weiqian(赵维谦)*, Tan Jiubin, Xue Zi, Fu Saoliang. SEST: A new error separation technique for ultra-high precision roundness measurement. Measurement Science and Technology. v16, n3, p833-841, 2005.3(SCI、EI双检);
20)Wang Yun, Qiu Lirong, Song Yanxing, Zhao Weiqian(赵维谦)*. Laser differential confocal lens thickness measurement. Measurement Science and Technology, v 23, n 5, 2012.5 (055204-1~8) (SCI、EI双检);
21)Zhao Weiqian(赵维谦)*, 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);
22)Zhao Weiqian(赵维谦), Guo Junjie, Qiu Lirong*, Wang Yun. 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);
23)Zhao Weiqian(赵维谦)*, Jiang Qin, Qiu Lirong, Liu Dali. Dual-axes differential confocal microscopy with high axial resolution and long working distance. Optics Communications. v.284,n1, 2011.1.1, p15-19. (SCI、EI双检);
24)Zhao Weiqian(赵维谦)*, 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);
25)Zhao Weiqian(赵维谦)*,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);
26)Qiu Lirong, Zhao Weiqian(赵维谦)*. Confocal multiple-transmitted-light interference microscope with increased lateral resolution. Optical Engineering. v 52, n 10,2013.10.23, 100504(SCI、EI双检);
27)Qiu Lirong, Zhao Weiqian(赵维谦)*, 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);
28)Zhao Weiqian(赵维谦)*, Tan Jiubin, Qiu Lirong. Improvement of confocal microscope performance by shaped annular beam and heterodyne confocal techniques. Optik. v 116, n 3, 2005.4, p111-117 (SCI、EI双检) ;
29)Qiu Lirong, Zhao Weiqian(赵维谦)*, Xuemei Ding, Dingguo Sha. Effect of fabrication errors on lateral super-resolution property of a three-zone pupil filter. Optik. v 120, n 4, 2009.2, p 151-157 (SCI、EI双检);
30)Qiu Lirong, Zhao Weiqian(赵维谦)*, Feng Zhengde, Ding Xuemei. A lateral superresolution differential confocal technology with phase-only pupil filter. Optik. v 118, n 2, 2007.2, pp67-73(SCI、EI双检);
31)Qiu Lirong, Zhao Weiqian(赵维谦)*, Ding Xuemei. Effect of fabrication errors on axial super-resolution property of a three-zone pupil filter. Optik. v 117, n 12, 2006.12, p563-568 (SCI、EI双检);
32)Wang Yun, Qiu Lirong*,Yang Jiamiao, Zhao Weiqian(赵维谦). Measurement of the refractive index and thickness for lens by confocal technique. Optik. v 124, n 17, 2013.9, p 2825–2828(SCI、EI双检)
1)中国光学学会光学测试专业委员会副主任委员;
2)中国仪器仪表学会测量与控制专业委员会副主任委员;
3)北京市“精密光电测试仪器与技术”重点实验室副主任;
4)教育部“光电成像技术与系统”重点实验室学术委员会委员;
5)北京市“光电测试技术”重点实验室学术委员会委员;
6)航空动态测试与校准重点实验室学术委员会委员;
7)全国量仪标准化委员会委员;
8)中国计量测试学会计量仪器专业委员会常务委员;
9)国家自然基金委“机械工程学科发展战略报告(2011-2020)”编著委员会成员;
10)《光谱学与光谱分析》期刊编委;
11)Optics Express、Optics letters、Applied Optics等6种国际期刊审稿人;
12)担任6项国家重大科学仪器设备开发专项项目技术专家组专家等

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