Jingqi Lu
Professor
Visit:
Personal Information:
  • Name (English):
    Jingqi Lu
  • Name (Pinyin):
    Lu Jingqi
  • E-Mail:
    Lu618@sdu.edu.cn
  • School/Department:
    信息科学与工程学院
  • Education Level:
    Postgraduate (Postdoctoral)
  • Gender:
    Male
  • Contact Information:
    微信:Cody-Lu
  • Degree:
    Doctoral Degree in Engineering
  • Status:
    Employed
  • Alma Mater:
    日本国立电气通信大学
  • Supervisor of Doctorate Candidates
  • Supervisor of Master's Candidates
Discipline:
Optical Engineering;
Measuring and Testing Technologies and Instruments;
Academic Honor:

2012    Top-notch Talent of Shandong Province;
Honors and Titles:

2009-08-20    日本计测及自动控制协会新产品开发奖;
2002-05-20    日本激光学会业绩进步奖;
Biography

        卢景琦(曾用名卢建仁,2013年改为现名)山东大学信息学院教授,博士生导师,泰山学者海外特聘专家,在日本电气通信大学 、 大阪大学和日本横河电机株式会社以及山东大学有长达二十多年的激光技术和光电检测成像技术研发经历,具有高校研究和企业产品研发多年的丰富经验。

       作为国际透明陶瓷激光业界的先行者之一,卢教授在国际上率先将Nd:YAG透明陶瓷研制成可以商品化的程度,引领了国际上透明陶瓷激光的研究热潮。此后,卢教授又陆续在国际上首次研制成功各种稀土离子掺杂的氧化钇,氧化钪,氧化镥等多种高融点透明陶瓷激光器, 使得单晶体不容易 做到的激光振荡成为可能。 从博士生2年级开始在国际会议上作特邀 报告多次,被誉为是激光业界革命性的进步。 因在陶瓷激光研究方面的突出成绩, 2002年获得日本激光学会业绩进步奖。

       卢教授在高科技跨国企业,日本横河电机株式会社有长达6年多的生物成像仪器研发经验,对于激光技术的应用和精密光学仪器设计积累了丰富的经验, 所开发的转盘式共聚焦显微镜获2009年日本计测及自动控制学会新产品开发奖。 世界各地研究者利用此产品做出了很多原创性工作,每年发表在 Science Nature Cell这三类顶级刊物的论文就有10篇以上。 所开发的高内涵新药筛选仪器CV7000等大型仪器设备具有业界最高性能,已经逐渐占领世界 新药筛选市场。

       目前主要从事激光诱导击穿光谱技术(LIBS)的研究和应用推广工作,已经成功应用于电厂煤质在线检测领域,为电厂的节能减排,智慧电厂建设发挥重要作用。在石油焦,矿石,珠宝,陶瓷,玻璃,化工原料加工等产业的在线检测应用也正逐步展开。另外课题组在彩色打标,高端显微成像,红外高温测量,偏振测量等领域也有布局,与企业合作开发实用化技术是本课题组的重要工作。

       从2000 年以来发表论文80余篇,被引用近6000次。其中被引次数超过100的第一作者论文10余篇,单篇最高超1000次,2021-2023年爱思唯尔(Elsevier)高被引学者上榜 。 获批授权多项发明专利。

       本课题组常年招收硕士生和博士生,欢迎有志青年加入我们团队,共同挑战前沿科技!


Education
  • 1999-4 — 2002-3
    日本国立电气通信大学
    电子工程
    Doctor
  • 1994-9 — 1997-7
    山东大学
    凝聚态物理
    Master
  • 1990-9 — 1994-7
    山东大学
    应用物理学
    Bachelor
Publication
Papers

1. 王剑磊. An all-fiber high-power picosecond amplifier with Yb-doped polarization-maintaining tapered fiber .LASER PHYSICS.2023,33 (3)

2. 王剑磊. Pulse-shaped high-energy and high-average-power fiber laser in the nanosecond regime .Applied Optics.2023,62 (17):4505

3. 王剑磊. An all-fiber high-power picosecond amplifier with Yb-doped polarization-maintaining tapered fiber .LASER PHYSICS.2023 (33)

4. 卢鹏. Quantitative analysis of trace elements (vanadium, sodium, and calcium) in petroleum coke using laser-induced breakdown spectroscopy with binder .SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY.2022 (190):106388

5. 卢景琦. Investigation of the secondary breakdown of double-pulse laser-induced breakdown spectroscopy with different focusing geometries and positions .JOURNAL OF ANALYTICAL ATOMIC SPECTROMETRY.2022,37 (11):2320

6. 卢景琦. Quantitative analysis of trace elements (vanadium, sodium, and calcium) in petroleum coke using laser-induced breakdown spectroscopy with binder .SPECTROCHIMICA ACTA PART B-ATOMIC SPECTROSCOPY.2022 (190)

7. 张文浩. Determination of vanadium, iron, and nickel in petroleum coke by laser-induced breakdown spectroscopy .Spectrochimica Acta - Part B Atomic Spectroscopy.2021,177

8. 张文浩. Laser-induced breakdown spectroscopy for quantitative and qualitative analysis of the ash fusion temperatures of coal in power plants .JOURNAL OF ANALYTICAL ATOMIC SPECTROMETRY.2021,36 (3):576

9. 卢鹏. Determination of calorific value in coal by LIBS coupled with acoustic normalization .Applied Physics B: Lasers and Optics.2021,127 (6)

10. 卢鹏. A hybrid feature selection combining wavelet transform for quantitative analysis of heat value of coal using laser-induced breakdown spectroscopy .Applied Physics B: Lasers and Optics.2021,127 (2)

11. 卢鹏. Accuracy improvement of quantitative LIBS analysis of coal properties using a hybrid model based on a wavelet threshold de-noising and feature selection method .Applied Optics.2020,59 (22):6443

12. 卢景琦. Accuracy improvement of quantitative LIBS analysis of coal properties using a hybrid model based on a wavelet threshold de-noising and feature selection method. .Applied optics.2020,59 (22)

13. 张文浩. LIBS analysis of the ash content, volatile matter, and calorific value in coal by partial least squares regression based on ash classification .JOURNAL OF ANALYTICAL ATOMIC SPECTROMETRY.2020,35 (8):1621

14. 孙腾飞. Michelson-based lateral shearing interference microscopy for quantitative phase measurement of biological cells .JAPANESE JOURNAL OF APPLIED PHYSICS PART 2-LETTERS & EXPRESS LETTERS.2020,59 (10)

15. suntengfei , Jingqi Lu  and 孙腾飞. 基于单一分光棱镜干涉仪的双通路定量相位显微术 .物理学报.2018 (14)

16. Jingqi Lu. Quantitative phase imaging based on simple Michelson-type lateral shearing interferometry with rotational right-angle prisms .Applied Optics.2019

17. suntengfei , lupeng , Allen Zhuang ZHUO , Jingqi Lu  and 孙腾飞. Dual-interference-channel Fresnel biprism phase microscope and its application to quantitative phase imaging for transparent biological cell .Japanese Journal of Applied Physics.2018,57 (9)

18. suntengfei , lupeng , Allen Zhuang ZHUO , Jingqi Lu  and 孙腾飞. Single-shot two-channel Fresnel bimirror interferometric microscopy for quantitative phase imaging of biological cell .Optics communications.2018,426 :77

19. Jingqi Lu  and Tian Lan. Performance analysis of the beam shaping method on optical auditory neural stimulation in vivo .Lasers Medical Science.2015,30 :1533

20. Jingqi Lu  and Tian Lan. Pulsed 980 nm short wavelength infrared neural stimulation in cochlea and laser parameter effects on auditory response characteristics .Biomedical Engineering Online.2015,14 (89):1

21. Xingyu Zhang , Cong Zhenhua , chenxiaohan , qinzengguang , Liu Zhaojun  and Jingqi Lu. Tunable KTA Stokes laser based on stimulated polariton scattering and its intracavity frequency doubling .Optics Express.2016

22. wangzhengping , Jingqi Lu  and xuxinguang. Optical frequency fork based on stimulated Raman scattering .JOURNAL OF ALLOYS AND COMPOUNDS.2016

23. suntengfei , Allen Zhuang ZHUO , Jingqi Lu , lupeng  and 孙腾飞. Single-shot interference microscopy using a wedged glass plate for quantitative phase imaging of biological cells .Laser Physics Letters.2018,28 (12)

24. Jingqi Lu  and 孙腾飞. 基于单一分光棱镜干涉仪的双通路定量相位显微术 .物理学报.2018 (14)

25. Jingqi Lu. Quantitative phase imaging based on simple Michelson-type lateral shearing interferometry with rotational right-angle prisms .Applied Optics.2019

26. Cong Zhenhua , chenxiaohan , qinzengguang , Liu Zhaojun , Jingqi Lu  and Xingyu Zhang. Tunable KTA Stokes laser based on stimulated polariton scattering and its intracavity frequency doubling .Optics Express.2016

27. Jingqi Lu , xuxinguang  and wangzhengping. Optical frequency fork based on stimulated Raman scattering .JOURNAL OF ALLOYS AND COMPOUNDS.2016

28. Jingqi Lu. Quantitative phase imaging based on simple Michelson-type lateral shearing interferometry with rotational right-angle prisms .Applied Optics.2019

29. Cong Zhenhua , chenxiaohan , qinzengguang , Liu Zhaojun , Jingqi Lu  and Xingyu Zhang. Tunable KTA Stokes laser based on stimulated polariton scattering and its intracavity frequency doubling .Optics Express.2016

30. lupeng , Allen Zhuang ZHUO , Jingqi Lu  and 孙腾飞. Single-shot two-channel Fresnel bimirror interferometric microscopy for quantitative phase imaging of biological cell .Optics communications.2018,426 :77

31. Jingqi Lu  and 孙腾飞. 基于单一分光棱镜干涉仪的双通路定量相位显微术 .物理学报.2018 (14)

32. lupeng , Allen Zhuang ZHUO , Jingqi Lu  and 孙腾飞. Dual-interference-channel Fresnel biprism phase microscope and its application to quantitative phase imaging for transparent biological cell .Japanese Journal of Applied Physics.2018,57 (9)

33. Allen Zhuang ZHUO , Jingqi Lu , lupeng  and 孙腾飞. Single-shot interference microscopy using a wedged glass plate for quantitative phase imaging of biological cells .Laser Physics.2018,28 (12)

34. Jingqi Lu , xuxinguang  and wangzhengping. Optical frequency fork based on stimulated Raman scattering .JOURNAL OF ALLOYS AND COMPOUNDS.2016

35. Tian Lan  and Jingqi Lu. Performance analysis of the beam shaping method on optical auditory neural stimulation in vivo .Lasers Medical Science.2015,30 :1533

36. Tian Lan  and Jingqi Lu. Pulsed 980 nm short wavelength infrared neural stimulation in cochlea and laser parameter effects on auditory response characteristics .Biomedical Engineering Online.2015,14 (89):1

Patens
Research Group
Title
泰山学者团队
Description of Research Group:
本团队致力于光电应用技术的研究开发,包括激光诱导击穿光谱技术应用,超快激光微纳加工,高端显微成像,红外辐射高温测量,应力双折射测量,彩色打标技术等,除了承担纵向课题,和企业的横向合作也是本课题组的...
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