谢芳

博士、教授

基本信息

办公电话:010-51685731 电子邮件: fxie@bjtu.edu.cn
通讯地址:北京市海淀区上园村3号北京交通大学理学院物理系 邮编:100044

教育背景

1998/09–2002/07,清华大学,精密仪器系,工学博士

1989/09–1992/07,重庆大学,光机系,工学硕士

1983/09–1987/07,重庆大学,机械工程一系,工学学士

工作经历

2003/09–至今,北京交通大学理学院物理系,历任讲师、副教授、教授、博士生导师

2002/09–2003/08,英国Aston UniversitySchool of Engineering & Applied Science,访问学者

研究领域为微纳米测量,精密测量,光纤传感。

研究方向

  • 光电检测与光电传感
  • 光电信息工程

招生专业

  • 光学工程硕士
  • 光电信息工程硕士
  • 光学工程博士

科研项目

  • 红果园(横): 碳纳米管晶体管制备, 2023-2024
  • 北京市自然基金“面上”: 光纤四波长激光外差自混合干涉绝对距离在线测量系统的研究, 2022-2024
  • 重点资助项目: 基于光谱色散及 Fabry-Perot滤波器融合的超分辨精密微结构表面三维形貌测量仪, 2020-2024
  • 检索论文(自然)基金: 2016年高水平论文奖励立项+谢芳, 2017-2021
  • 北京市自然基金“面上”: 低反射率表面三维形貌线扫描光纤在线高精度测量技术研究 , 2017-2019
  • 自然科学横向项目: 光纤温度传感器, 2016-2021
  • 北京市自然基金“面上”: 基于光纤激光自混合干涉的高精度位移在线测量技术研究, 2013-2015
  • 国家自然科学基金“面上”: 可调谐拍长线扫描的不连续表面三维干涉测量研究, 2010-2012
  • 北京市自然基金“面上”: 基于波分复用技术的光纤干涉纳米在线测量系统研究, 2007-2009
  • 国家自然科学基金“面上”: 基于光谱色散线扫描的光纤干涉纳米表面三维在线测量原理与技术研究, 2007-2009
  • 校科技基金: 光纤光栅传感器的研究, 2004-2004
  • 校科技基金: 光纤光栅波分复用在线非接触表面三维测量的研究, 2005-2007
  • 留学回国人员基金: 光纤光栅波分复用在线非接触表面三维测量的研究, 2005-2007

教学工作

1、主讲《光学测量技术与应用》

2、指导《大学物理实验》

论文/期刊

[1].   Hui Wang, Fang Xie*, Sen Ma, Yunzhi Wang, Lianlian Dong, Hengxiao Xu. Wavelength-dispersed optical-line scanning super-resolution interferometry for fast measurement of precision surface[J]. Optics and Lasers in Engineering, 111:19-24, 2018.

[2].   Yunzhi Wang,Fang Xie*,Sen Ma,Lianlian Dong. Review of surface profile measurement techniques based on optical interferometry[J]. Optics and Lasers in Engineering, 93: 164-170, 2017.

[3].   Sen Ma, Fang Xie*, Liang Chen, Yunzhi Wang, Lianlian Dong, and Keqiang Zhao. Development of dual-wavelength fiber ring laser and its application to step-height measurement using self-mixing interferometry[J]. OPTICS EXPRESS, 24(6): 5693-5698, 2016.

[4].   Lianlian Dong, Fang Xie, Sen Ma, Yunzhi Wang, and Liang Chen. Simple tunable dual-wavelength fiber laser and multiple self-mixing interferometry to large step height measurement[J]. OPTICS EXPRESS, 24(19): 21880-21885, 2016.

[5].   Yunzhi Wang, Fang Xie, Sen Ma, and Liang Chen. Remote and high precision step height measurement with an optical fiber multiplexing interferometric system[J], Optics and Lasers in Engineering, 66: 52-57, 2015.

[6].   Keqiang Zhao, Fang Xie*, Sen Ma, Yunzhi Wang, Liang Chen. A novel absolute displacement measurement technology based on wavenumber resolved  low coherence interferometry[J]. Optics & Laser Technology, 75: 34-39, 2015.

[7].   Sen Ma, Fang Xie*, Yunzhi Wang, Liang Chen, A high precision step height measurement system of optical fiber multiplexed interferometry, Measurement, 59: 290-295, 2015.

[8].   赵可强,谢芳*,马森,王韵致,陈亮. 基于波数分辨的低相干干涉台阶高度测量系统的研究[J]. 光学学报, 11:1112006, 2015.

[9].   Sen Ma, Fang Xie*, Yunzhi Wang, Liang Chen. High precision double-interferometry for large step-height on-line measurement using waveform transforming technology.  Key Engineering Materials, Micro-Nano Technology XV, v609-610, 1122-1130, 2014.

[10]. Yunzhi Wang, Fang Xie*, Sen Ma, Liang Chen. An optical fiber multiplexing interferometric system for measuring remote and high precision step height. Proceedings of SPIE - The International Society for Optical Engineering, 2014 International Conference on Optical Instruments and Technology: Optoelectronic Measurement Technology and Systems, v9449: 9449 38, 2014.

[11]. 马森, 谢芳*, 王韵致, 陈亮. 基于光纤双波干涉的台阶高度在线高精度测量研究[J]. 光电子激光, 25(9): 1749-1753, 2014.

[12]. Fang Xie*, Jian Wang, Sen Ma, Yiqin Liu, Multiplexing optical fiber low coherence and high coherence interferometric system with large range and high resolution for on-line measurement, Measurement, 46(1), 171-176, Jan. 2013.

[13]. Fang Xie*, Jian Wang, Sen Ma, Yiqin Liu, Research on an optical fiber low-coherence interferometric sensing system with dual-interferometry, Optik., 124(16), 2349-2353, Aug. 2013.

[14]. Yunzhi Wang, Fang Xie*, Sen Ma, Liang Chen. High precision double-interferometry displacement measurement by waveform transforming based on FFT. Proceedings of SPIE - The International Society for Optical Engineering,, 2013 International Conference on Optical Instruments and Technology: Optoelectronic Measurement Technology and Systems, v9046: 904604, 2013.

[15]. 马森,谢芳*,刘义秦,李恒鹤,光纤双干涉在线绝对测量技术研究,仪器仪表学报,34(2),268-274,2013.

[16]. 李昭莹,谢芳*,马森,刘义秦,基于复合干涉的光纤低相干干涉传感系统研究,光学学报,32(6),0612004,2012.

[17]. 刘义秦,谢芳*,马森,李昭莹,融合双波及单波干涉的光纤位移传感系统研究,光电子·激光,23(7),1369-1373,2012.

[18]. 李恒鹤,谢芳*,马森,高稳定大量程复合光纤干涉位移测量系统研究,激光技术,36(6),738-741,2012.

[19]. Sen Ma, Fang Xie*, Zhaoying Li, Research on a multiplexed interferometry technique for absolute displacement measurement, Proceedings of SPIE, 2011 International Conference on Optical Instrument and Technology, 2011.11.06-09, Volume 8201: 8201 0O, Beijing, China, 2011.

[20]. Sen Ma, Zhaoying Li, Fang Xie*, Vibration-displacement measurement employing phase tracking technique with an optical fiber Michelson interferometer, Proceedings of SPIE, 2011 International Conference on Optical Instrument and Technology, 2011.11.06-09, Volume 8201: 8201 1R, Beijing, China, 2011.

[21]. Ren JY, Xie F*, Chen ZM, Elimination of drift in a fiber-Bragg-grating-based multiplexed Michelson interferometer measurement system, REVIEW OF SCIENTIFIC INSTRUMENTS, 81(2), 025105, 2010.

[22]. Fang Xie*, Junyu Ren, Zhimin Chen and Qibo Feng, Vibration-displacement measurement with a highly stabilised optical fiber Michelson interferometer system, Optics & Laser Technology, 42(1), 208-213, 2010.

[23]. Zhimin Chen and Fang Xie*, Dynamic displacement measurements with a stabilised fiber Michelson interferometer based on quadratrue-phase-tracking technique, Optical Engineering, 49(1), 013601, 2010.

[24]. Fang Xie*, Min Li, Ding Song, Jinling Sun, Tao Zhang, Large range and high resolution on-line displacement measurement system by combining double interferometers, Optics Express, 18(24), 24961-24968, 22 Nov. 2010.

[25]. 陈志敏,谢芳*,李敏,光纤F-P解调的双参数光纤光栅传感系统,压电与声光,32(5),732-734,2010.

[26]. 李敏,谢芳*,陈志敏,高稳定的光纤3×3耦合器干涉振动测量系统,中国激光,37(2),549-553,2010.

[27]. 李敏,谢芳*,陈志敏,高稳定的光纤3×3耦合器干涉位移测量系统,光电子·激光,21(2),235-239,2010.

[28]. 谢芳*,陈志敏,任均宇,一阶反馈稳定光纤3×3耦合器干涉测量系统,激光技术,34(3),297-299,2010.

[29]. Fang Xie*, Xianfeng Chen and Lin Zhang, High stability interleaved fiber Michelson interferometer for on-line precision displacement measurements, OPTICS AND LASERS IN ENGINEERING, 47(11), 1301-1306, 2009.

[30]. Fang Xie*, Zhimin Chen and Junyu Ren, Stabilisation of an optical fiber Michelson interferometer measurement system using a simple feedback circuit, Measurement, 42(9), 1335–1340, 2009.

[31]. Fang Xie*, Junyu Ren, Zhimin Chen, Design and analysis of a highly stabilised optical fiber Michelson interferometer measurement system, Sensors and Actuators A: Physical, 152(2), 176-181, 2009.

[32]. Fang Xie*, Zhimin Chen, Junyu Ren, Qibo Feng, Vibration-displacement measurements based on the phase tracking of an optical fiber Michelson interferometer, Optical Engineering, 48(04), 043608, 2009.

[33]. Min Li, Fang Xie*, Junyu Ren, Vibration measurements based on demodulating the phase of a fiber 3dB-coupler Michelson interferometer, SPIE Proceedings, 2009 International Conference on Optical Instruments and Technology, Proceedings Vol. 7511, 2009.

[34]. 谢芳*,李敏,陈志敏,基于光纤3×3耦合器干涉仪及相位跟踪的振动测量系统,光学技术,35(6),927-930,2009.

[35]. Yi Lu, Fang Xie*, Sijin Wu, On-Line Displacement Measurement using a High Stability Multiplexed Optical Fiber Interferometer System, IEEE International Nanoelectronics Conference, 2008.

[36]. Sijin Wu, Fang Xie*, Yi Lu, “Stabilization of a Multiplexing Fiber Michelson Interferometer for Precision Measurement” IEEE International Nanoelectronics Conference, 2008.

[37]. Fang Xie*, Jia Jia, Chen Zhimin,“The stabilizing of a multiplexed optical fiber interferometer system” SPIE Poceedings, The 4th International Symposium on Advanced Optical Manufacturing and Testing Technology, 2008.

[38]. Fang Xie*, Chen Zhi Min, “The stabilized multiplexing optical fiber interferometer system for on-line precision measurement”, SPIE Proceedings, International conference of optical instrument and technology, 2008.

[39]. Fang Xie*, Yi Lu, Lin Zhang, Optical fiber multiplexing interferometer system with a single laser diode and its application to on-line displacement measurement. Optial Engineering,46(5): 051011, 2007.

专著/译著

专利

[1].    谢芳,芦毅. 利用光纤光栅的光纤干涉型在线微位移测量系统,2008.12.03,中国,ZL200710063770.0

[2].    谢芳. 利用光线扫描的干涉型纳米表面三维在线测量系统及方法,2009.01.28,中国,ZL200710099709.1

[3].    谢芳,张琳. 利用合成波干涉全场纳米表面三维在线测量方法和系统,2009.01.28,中国,ZL200710120661.8

[4].    谢芳,张琳. 利用合成波干涉全场纳米表面三维在线测量方法及系统,2009.04.22,中国,ZL200710120662.2

[5].    谢芳. 合成波干涉纳米表面三维在线测量方法及系统,2009.05.27,中国, ZL200710120081.9

[6].    谢芳. 合成波干涉纳米表面三维在线测量系统及方法,2009.05.27,中国,ZL200710120079.1

[7].    谢芳,张琳. 利用光纤光栅及波分复用技术的台阶高度在线测量系统,2009.10.28,中国,ZL200710122404.8

[8].    谢芳,宋丁,孙金岭,张涛,王颖. 双波长光纤干涉大量程高分辨率位移测量系统,2012.04.25,中国,ZL201010137593.8

[9].    谢芳,马森,刘义秦,李昭莹. 一种基于光纤复合干涉的高精度远程绝对位移测量系统,2013.04.24,中国,ZL201110439808.6

[10].  谢芳,刘义秦,马森,李昭莹. 一种基于光纤复合干涉的高精度绝对位移测量系统,2013.04.24,中国,ZL201110439810.3

[11].  谢芳,马森,刘义秦,李昭莹. 一种可调谐拍波线扫描的表面三维干涉测量系统,2013.05.15,中国,ZL 201110439854.6

[12].  谢芳,王韵致,马森,赵可强,董连连. 一种基于光谱色散线扫描的超横向分辨率表面三维在线干涉测量系统,中国,ZL 201510744775.4

[13].  谢芳,王韵致,马森,赵可强,董连连. 一种基于光谱色散全场的超横向分辨率表面三维在线干涉测量系统,中国,ZL 201510744898.8

[14].  谢芳,赵可强,马森,王韵致. 一种基于波数分辨的低相干干涉绝对距离测量系统,中国,ZL 201510626988.7

[15].  谢芳,王韵致,陈亮,马森,赵可强. 一种光纤激光单波自混合干涉位移测量系统,中国,ZL 201510102724.1

[16].  谢芳,王韵致,陈亮,马森,赵可强. 一种光纤激光拍波和单波自混合干涉融合的位移测量系统,中国,ZL 201510102965.6

[17].  谢芳,许珩潇. 一种单波光纤激光自混合干涉测量方法,中国,ZL 201810424299.1

[18].  谢芳,董连连. 一种双波光纤激光自混合干涉测量方法,中国,ZL 201810424251.0

[19].  谢芳,王辉. 一种三波光纤激光自混合干涉测量方法,中国,ZL 201810424296.8

[20].  谢芳,王韵致. 一种三波光纤激光自混合干涉测量系统,中国,ZL 201810424298.7

[21].  谢芳,董连连. 一种双波光纤激光自混合干涉测量系统,中国,ZL 201810424258.2

[22].  谢芳,许珩潇. 一种单波光纤激光自混合干涉测量系统,中国,ZL 201810424215.4

软件著作权

获奖与荣誉

社会兼职

1. 中国光学学会高级会员。

2. 《激光技术》编委。

3.中国微米纳米学会会员。

4. 国内外多篇学术期刊审稿人。