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教师介绍

吕且妮

来源:更新时间:2025-03-21

姓 名 吕且妮
职 称 教授
所在系别 光电信息工程
所属课题组 光电成像与检测技术实验室(III室)
主讲课程 工程光学(2)、高等光学、信息光学
导师类型 光学工程——博导、硕导
联系电话 13022255796
电子邮件 qienil@dgquanwei.com
办公地址 卫津路校区26楼C区307
通讯地址 天津大学精仪学院
邮政编码 300072

个人经历或学术经历
  1. 2000年09月~2003年8月,天津大学,精仪仪器与光电子工程学院,博士;
  2. 2003年09月~2005年8月,天津大学,精仪仪器与光电子工程学院博士后;
  3. 2004年10月~2005年1月英国拉夫堡大学,沃尔森机械与制造工程学院,访问学者;
  4. 2005年9月~2021年6月,天津大学精仪学院,副教授。
  5. 2021年7月~,天津大学精仪学院,教授。
研究方向
  1.   3D光电成像与检测、粒子场测量、人工智能、表面等离子激元、钙钛矿探测器以及光电仪器等
科研项目、成果和专利

近年参与和完成的主要研究工作:

  1. 1 国家自然基金:“结构光调制的喷雾场超分辨散射成像及其形态诊断研究”,研究经费59万,时间2023.01?2026.12,负责人。
  2. 2 国家自然基金:“基于扩展IPI和CD谱增强的呼出气溶胶微观特性测量及感染诊断研究 ”,研究经费29万,时间2022.01?2025.12,负责人(校内)。
  3. 3 国家项目,研究经费39万,时间:2020.01?2023.06,负责人。
  4. 4 安徽中益新材料科技股份有限公司,列车火灾全景扫描式监测预警系统基础开发环境,20万,时间:2024.10?2025.04,参加。
  5. 5 中国铁路设计集团有限公司,基于环境智能感知的路灯群控和LED驱动系统研究,65万,时间:2024.01?2025.09,参加。
  6. 6 天津市自然科学重点基金项目,“纳秒级光可编程电控光偏转器及其关键技术”,研究经费20万元,时间:2018.04?2021.03,负责人。
  7. 7 国家自然基金:“基于干涉粒子成像(IPI)的直喷汽油机喷雾场微观特性测量及关键技术研究”,研究经费82万元,时间2013.01?2016.12,负责人。
  8. 8 国家自然基金:“纳(亚纳)秒级电控全息光交换技术的理论与关键技术研究”。研究经费36万元,时间:2011.01?2013.12,负责人。
  9. 9 国家自然基金:“海面溢油油膜厚度测量理论与关键技术研究”。研究经费:45万元,时间:2009.01?2011.12,负责人。
  10. 10 国家自然基金:“基于数字像面全息和干涉成像技术的粒子尺寸速度测量研究”。经费27万元,时间:2007.01?2009.12,负责人。
  11. 11 天津市自然基金一项:“海面溢油油膜厚度测量关键技术研究”, 研究经费:10万元,时间:2008.04?2011.03,负责人。
  12. 12 内燃机燃烧学国家重点实验室开放课题:“基于激光干涉粒子成像和数字全息实现直喷汽油机喷雾粒子场测量(K2011-10)”,研究经费:15万元,时间:2011.01?2012.12,负责人。
  13. 13 瞬态光学与光子技术国家重点实验室开放课题(中国科学院西安光学精密机械研究所):“高速电控光偏转器关键技术研究(SKLST201505)”,研究经费:5万,时间:2015.12-2017.12,负责人。

参加的主要项目:

  1. 14 国家863计划“机载投弃式海上溢油油膜厚度测量技术”,研究经费:100万元,时间:2008.08?2012.12。
  2. 15 国家重点基金:“大场景目标纹理特征的中远距离、高分辨率三维测量与定位研究”,研究经费:364万元,时间:2016.01?2020.12。
  3. 16 国家科技重大专项:“高分辨率单色器”,研究经费:269.6万元,时间:2014.10?2019.09。

专利:

  1. 1 吕且妮,刘浩,刘泰裕,一种基于干涉粒子成像技术的液体体系异物检测方法,专利号:ZL202111328377.6
  2. 2 吕且妮,斯那卓玛,葛宝臻,田庆国,一种基于相关最大性的湍流退化图像复原方法,专利号:201911036364.4
  3. 3 吕且妮,尉小雪,葛宝臻,张晗笑,一种粒子尺寸和折射率同时测量方法,专利号:201810085747.X
  4. 4 吕且妮,尉小雪,付春帅,一种基于相关匹配的粒子聚焦两点像测速方法,专利号:201811510172.8
  5. 5 吕且妮,李弼华,一种铁电材料电滞回线的光学测量方法,专利号:ZL201710134572.2
  6. 6 吕且妮,李弼华,段少锋,石佳,基于数字全息干涉的材料电致应变及其分布的测量方法,专利号:ZL201710663481.8
  7. 7 吕且妮,邱阳,周其辉,赵爽,基于数字全息的晶体光学参数测量方法,专利号:201210471975.3
  8. 8 葛宝臻,吕且妮,王项南,王春谊,魏耀林,姚文达,基于差分激光三角法的海面溢油油膜厚度测量方法,专利号:ZL200910068627.X
论文、专著

发表论文:

  1. 1. Tianhui Song, Qieni Lu, Hao Liu, Qingguo Tian, Characterization of nasal spray aerosol fields using the extended interferometric particle imaging technique, Measurement, 2024, 233, 114733.
  2. 2. Jia Li, Qieni Lu, Haitao Dai, Zhenda Chen, Yikai Fu, Xiao peng Chen, Tricolor narrowband planar perovskite photo detectors based on FP microcavity structure, Opt. Express, 2023, 31(19), 30578-30587.
  3. 3. Zhang Mingdi, Lu Qieni*, Wang Changlei, Dai Haitao, He Jiantao, Mohamed Z, Chen Xiaopeng, Baozhen Ge, High-performance and stability bifacial flexible self-powered perovskite photodetector by surface plasmon resonance and hydrophobic treatments, Organic Elerctron., 2021, 99, 106330.
  4. 4. Lu Qieni*, Liu Hao, Wang Huaying, Liu Taiyu, Song Tianhui, Fast and high-accuracy detection and evaluation of particle size and location from a linear interferogram, Appl. Opt., 2022, 61(25):7482-7489.
  5. 5. 何剑涛,吕且妮*,张明娣,戴海涛,付宜凯,陈小鹏,基于SPR和干涉模式复合增强窄带钙钛矿光电探测器,中国激光,2022, 49(23):2304004-2.
  6. 6. Yao Yanhong, Lu Qieni*, Zhang Mingdi, Dai Haitao, Active control of Kagome lattice defect mode using point-ring defect engineering, AIP Adv., 2022,12(1): 015317.
  7. 7. Qieni Lu*, Miaomiao Zhang, Mingdi Zhang, Haitao Dai, Xiangguo Ma, Localization of a Gaussian beam in an electrically tunable curved Airy channel in a paraelectric Mn:KLTN crystal, Opt. Lett., 46, 11, 2021, 2610-2613.
  8. 8. Zhang Mingdi, Lu Qieni*, Wang Changlei, Dai Haitao, He Jiantao, Mohamed Z, Chen Xiaopeng, Baozhen Ge, High-performance and stability bifacial flexible self-powered perovskite photodetector by surface plasmon resonance and hydrophobic treatments, Organic Elerctron., 2021, 99: 106330.
  9. 9. Qieni Lu*, Sina Zhuoma, Baozhen Ge, Qingguo Tian, Turbulent-degraded image restoration via improved principal component analysis method, J. Mod. Opt., 2021,68(17): 906-915.
  10. 10. Qieni Lu*, Zixuan Li, Chunshuai Fu, Hao Liu, Simultaneous retrieval of particle size and refractive index by extended interferometric particle imaging technique, Opt. Express, 2020, 28(2):2192-2200.
  11. 11. Yunpeng Li, Baozhen Ge, Qingguo Tian, Qieni Lu, Jianing Quan, Qibo Chen, and Lei Chen, EGOF-Net: epipolar guided optical flow network for unrectified stereo matching, Opt. Express, 2021, 29(11): 33874-33889.
  12. 12. Mingdi Zhang, Qieni Lu*, Changlei Wang, Haitao Dai, Yongxiang Xue, Jiantao He, Baozhen Ge, Improving the performance of ultra-flexible perovskite photodetectors through cation engineering, J. Phys.D Appl. Phys., 2020, 53(23): 235107.
  13. 13. Haitao Dai, Aixiang Xioa, Dongshuo Wang, Yongxiang Xue, Meini Gao, Xiaodong Zhang, Changlong Liu, Qieni Lu*, The focusing properties of spin wave with Fresnel lens phase profile, J Magn. Magn. Mater., 2020, 505, 166756
  14. 14. Chengpeng Hu, Xiangda Meng, Mao-Hua Zhang, Hao Tian, John E. Daniels, Peng Tan, Fei Huang, Li Li, Ke Wang, Jing-Feng Li, Qieni Lu, Wenwu Cao, Zhongxiang Zhou, Ultra-large electric field-induced strain in potassium sodium niobate crystals, Sci. Adv. 2020, 6, 13,
  15. 15. H.T.Dai, M.N.Gao, Y.X.Xue, A.X.Xiao, A.Ahmad, Z.Mohamed, C.L. Liu, Q. Lu*, S. Z. Feng, Magnetically tunable random lasing from polymer dispersed liquid crystal doped ferromagnetic nanoparticles in capillary, AIP Adv. 2019, 9(11): 115015.
  16. 16. Qieni Lu*, Xiaoxue Yu, Shiquan Shen, Ge Baozhen, Visualization of spatial distribution of the droplet size and velocity in flash boiling spray with extended glare-point imaging technique, Fuel, 2019, 242, 222-231.
  17. 17. Qieni Lu*, Xiaoxue Yu, Jie Xu, Detection of particle position from a linear interferometric out-of-focus image, Opt. Laser Technol. 2019, 115, 81-89.
  18. 18. Mingdi Zhang, Qieni Lu*, Baozhen Ge, Dual/three-band blocked infrared color filter created by surface plasmons in Bilayer nanoring, J. Opt., 2019, 48(4): 505-511.
  19. 19. Xu Jie, Ge Baozhen, Lu Qieni*, Light scattering of a coated spherical particle with large absorption in Debye series expansion, Opt. Commun. 2019, 436, 90-95
  20. 20. Mingdi Zhang, Qieni Lu*, Jie Xu, Baozhen Ge, Localized surface plasmon resonance property of bi-layer split ring-rods, Results Phys., 2019,13: 102266.
  21. 21. Mingdi Zhang, Qieni Lu*, Jie Xu, Baozhen Ge, Broadband circular polarizer based on twisted plasmonic nano-disks, Appl. Opt., 2019, 58(18): 4846-4852.
  22. 22. Qieni Lu*, Leran Wang, Xiaoxue Yu, Jie Xu, Corrected equations for the determination of a particle position using the interferometric particle imaging technique, Appl. Opt., 2019, 58(18): 5067-5073.
  23. 23. Qieni Lu*, Xiangguo Ma, Mingdi Zhang, Yanhong Yao, Bihua Li, Dark decay dynamic behavior of field induced photorefractive grating in a Mn:Fe:KTN co doped crystal, J Mater Sci Mater Electron. 2019, 29(23): 20500-20505.
  24. 24. Rui Meng, Baozhen Ge, Qieni Lu*, Xiaoxue Yu, Determining the refractive index of particles using glare-point imaging technique, Rev. Sci. Instrum. 2018, 89, 043107.
  25. 25. Jie Xu, Baozhen Ge, Qieni Lu*, Wide-range and accurate particle sizing using extended interferometric particle imaging technique, Rev. Sci. Instrum. 2018, 89, 123707.
  26. 26. Mingdi Zhang, Qieni Lu*, Hairong Zheng, Tunable circular dichroism created by surface plasmons in Bi-layer twisted tetramer nanostructure array, J.Opt. Soc. Am. B, 2018, 35(4): 689- 693.
  27. 27. Mingdi Zhang, Qieni Lu*, Baozhen Ge, Multi-band circular dichroism induced by surface plasmonic resonance in bi-layer semi-ring/rod nanostructure, Plasmonics, 2018,13,2111- 2116. (HD2GB)
  28. 28. Xiangguo Ma, Zhen Li, Qieni Lu*, Bihua Li, Mingdi Zhang, The frequency behavior of hysteresis loops in Mn:Fe:KTN ferroelectric single crystal, J Mater Sci Mater Electron. 2018, 29(23): 20500-20505.
  29. 29. Qieni Lu*, Bihua Li, Zhen Li, Haitao Dai, Yushan Liao, An optical method for characterizing domain wall motions and ferroelectric hysteresis in tetragonal Mn:Fe:KTN co-doped crystals, J. Mater. Sci., 2018, 53(8): 5987-5996.
  30. 30. Lu Qieni*, Yu Xiaoxue, Ge Baozhen, Chen Tingting, Simultaneous location and size measurement of particles using extended glare-point imaging technique, Opt. Express, 2018, 26(2):1038-1048.
  31. 31. Lu Qieni*, Li Bihua, Li Zhen, Ge Baozhen, Field-induced lifetime enhancement of photorefractive gratings in a Mn:Fe:KTN crystal, Opt. Lett., 2017, 42(13):2407-2410
  32. 32. Lu Qieni*, Han Kan, Ge Baozhen, Wang Xiang, High-accuracy simultaneous measurement of particle size and location using interferometric out-of-focus imaging, Opt. Express, 2016, 24(15):16530-16543
  33. 33. Lu Qieni*, Li Bihua, Dai Haitao, Ge Baozhen, Han Jinxin, In situ observation and monitoring of the dynamic behavior of field-induced photorefractive grating formation process with digital holographic microscopy, Opt. Mater. Express, 2016, 6(9):2991-3000.
  34. 34. Lu Qieni*, Han Jinxin, Dai Haitao, Ge Baozhen, Zhao Shuang, Visualization of the spatial-temporal evolution of the light-induced refractive index change in Mn:Fe:KTN co-doped crystal based on digital holographic interferometry, IEEE Photonics J., 2015, 7(4): 2600711.
  35. 35. Lu Qieni*, Han Jinxin, Dai Haitao, Ge Baozhen, Zhao Shuang, Temperature dependence of Kerr coefficient and quadratic polarized optical coefficient of a paraelectric Mn:Fe:KTN crystal, AIP Adv., 2015, 5(8), 087117
  36. 36. Jinxin Han, Qieni Lu*, Haitao Dai, Shuang Zhao, Yimo Zhang, In situ visualizing the evolution of the light-induced refractive index change of Mn:KLTN crystal with digital holographic interferometry, AIP Adv., 2015, 5(4), 047145.
  37. 37. Lu Qieni*, Zhao Shuang, Dai Haitao, Zhang Yimo, Simultaneous visualization of a paraelectric Mn:KNTN crystal and measurement of its Kerr coefficient by digital holographic interferometry, IEEE Photon. J., 2014, 6(1); 2600110
  38. 38. Lu Qieni*, Jing Wenhua, Lü Tong, Wang Xiang, Zhang Yimo, High-accuracy particle sizing by interferometric particle imaging. Opt. Commun., 2014, 312(2):312-318
  39. 39. Lu Qieni*, Wang Xiang, Lu Tong, Li Zhen and Zhang Yimo, Linear interferometric image processing for analysis of a particle in a volume. J. Opt., 2014, 16(4): 045703.
  40. 40. Wu Di, Lu Qieni*, Lu Lin, Ge Baozhen, Laser image spot processing for sea oil film thickness measurement. J. Mod. Opt., 2014, 61(8):676-682.
  41. 41. Zhai Mengran, Lu Qieni*, Zhang Hongxia, Zhang Yinxin, A coated sphere scattering by Geometrical Optics Approximation, J Opt Soc Am A, 2014, 31(10): 2160-2169.
  42. 42. Lu Qieni*, Lu Lin, Ge Baozhen, Wu Di, Wu Hao, Differential laser trigonometry for measuring the oil film thickness on water, J. Mod. Opt., 2012, 59(11), 947-953.
  43. 43. Lu Qieni*, Ge Baozhen, Yao Wenda, Zhang Yimo, A method for measuring the thickness of transparent oil film on water surface with laser trigonometry, Opt. Laser Eng., 2011, 49(1), 13-15.
  44. 44. Qieni Lu*, Yiliang Chen, Rui Yuan, Baozhen Ge, Yan Gao, Yimo Zhang, Trajectory and velocity measurement of a particle in spray by digital holography. Appl. Opt. 2009, 48(36):7000-7007.
  45. 45. Ge Baozhen, Sun Jingbin, Liu Pengcheng, Lu Qieni, Wu Di, Designing an optical set-up of differential laser triangulation for oil film thickness measurement on water. Rev. Sci. Instrum., 2013, 84(1): 013105.
  46. 46. 吕且妮,陈婷婷,吕通,王祥,张宇佳,双光束照明的干涉粒子成像粒子尺寸,中国激光,42, 12, 2015, 1208006.
  47. 47. 吕且妮*,高岩,葛宝臻, 马志彬,赵晨,张以谟,基于霍夫变换的数字全息粒子尺寸测量,中国激光,2009, 36(4): 940-944.
  48. 48. 吕且妮*,赵晨,马志斌,葛宝臻,高岩,张以谟,柴油喷雾场粒子尺寸和粒度分布的数字全息实验研究,中国激光,2010, 37(3): 779-783.
  49. 49. 吕且妮*,葛宝臻,高岩,张以谟,乙醇喷雾场粒子尺寸和速度的数字全息测量,光子学报,2010, 39(2): 266-270.
  50. 50. 吕且妮*,葛宝臻,陈益亮,张以谟,激光干涉粒子成像乙醇喷雾场粒子尺寸和粒度分布测量,中国激光,2011, 38(3), 0308003.
  51. 51. 吕且妮*,葛宝臻,陈益亮,张以谟,激光干涉粒子成像测量干涉图处理算法研究,光学学报,2011, 31(4), 0412009.
  52. 52. 吕且妮*,靳文华,葛宝臻,张以谟,粒子散射的几何光学模型中的多值散射角函数计算,光电子•激光,2010, 21(11), 1677-1682.
  53. 53. 吕且妮*,徐畅,靳文华,基于几何光学模型的大气泡粒子散射光场分布计算,天津大学学报,2012, 45(12): 1089-1095(EI: 20130515973058).
  54. 54. 吕且妮*,吕通,靳文华,陈益量,干涉粒子成像测量系统可测粒径范围及精度分析,中国激光,2013, 40(5):0508006.
  55. 55. 吕且妮*,葛宝臻,张以谟,数字显微像面全息技术研究,光电子•激光,2006, 17(4): 475-478.
  56. 56. Lu Qieni*, Ge Baozhen; Wei Yongjie, Tian, Qingguo; Li, Xiaojie; Wei, Yaolin; Zhang, Yimo, Low-density microporous polymeric foams measurement with digital microscopic image plane holography. Pro. SPIE. 2008, 6832, 683211.
  57. 57. Qieni Lu*, Hao Wu, Di Wu, Experimental determination of the system parameter of oil thickness measurement, Proc. of SPIE, 2010, 7850, 78500C.
  58. 58. Qieni Lu*, Baozhen Ge, Yiliang Chen, Jin Zou, Microstructure testing with digital holography, Pro. SPIE. 2009, 7511, 751105 (EI: 20103413166319).
  59. 59. 吕且妮*,周其辉,邱阳, 赵爽,Mn:KLTN晶体相变温度实验测量,北京工业大学学报,2014, 40(5): 738-742.
  60. 60. Hu Hua, Zhang Fugen, Lu Qinei*, Pan Linchao, Measurement upper limit of laser particle size analyzer, Acta, Opt. Sinica, 2018, 38(4): 042900
  61. 61. Zuo Chenze, Lu Qieni, Ge Baozhen, Impact of refractive index of aerosol particles on particle diameter optical measurement, Opt. Precision Eng. 2017, 25(7): 1777-1782
  62. 62. Wu Di, Lu Qieni, Ge Baozhen, Spot center extraction based on cross correlation and improved Gaussian fitting, J. Optoelectronics Laser, 2017, 28(2): 202-210
  63. 63. Wu Di, Lu Qieni, Ge Baozhen, Development of oil film thickness sensor based on buoy, Chiness Journal of laser, 2014, 41(1): 0108004.
  64. 64. Ge Baozhen, Sun Jingbin, Liu Pengcheng, Lu Qieni, Wu Di, Designing an optical set-up of differential laser triangulation for oil film thickness measurement on water. Rev. Sci. Instrum., 2013, 84(1): 013105.

著作、教材:

  1. 1. 工程光学实验教程,吕且妮(主编),机械工业出版社,2018.8.
  2. 2. 现代应用光学,张以谟(主编),吕且妮(参编),电子工业出版社,2018.1.
  3. 3. 光互连网络技术,张以谟(主编),吕且妮(参编),电子工业出版社,2006.12.
奖励、荣誉和学术兼职

获奖

  1. (1) 2008年,LSA型激光喷雾粒度测试仪获天津市科学技术进步二等奖(排名4);
  2. (2) 2009年“《工程光学》精品课程的建设与改革”国家级教学成果二等奖(排名6);
  3. (3) 2009年“《工程光学》精品课程的建设与改革”天津市教学成果一等奖(排名6);
  4. (4) 2013年《工程光学》国家精品共享课程建设(排名2);
  5. (5) 2020-2021年度“天津市工程专业学位优秀指导教师奖”

荣誉:

  1. (1) 2005年获校级优秀博士论文;
  2. (2) 2010、2012和2018年度“优秀毕业设计指导教师”;
  3. (3)2019、2020年度校级“优秀硕士学位论文指导教师”。
  4. (4) 2020-2021年度“天津市工程专业学位硕士研究生优秀学位论文指导教师”

学术兼职:

  1. 中国粉体技术编委;
  2. 中国光学学会会员;
  3. 中国光学学会全息与光信息专业委员会委员;
  4. 中国光学学会光电技术专业委员会委员;
  5. 中国光学学会光学测试专业委员会委员。
 

科技链接

教学链接

校内链接

  • 国际交流