基本信息

王强  男  博导  中国科学院长春光学精密机械与物理研究所
电子邮件: wangqiang@ciomp.ac.cn
通信地址: 吉林长春东南湖大路3888号
邮政编码: 130033

个人简介

王强,男,工学博士,中国科学院长春光学精密机械与物理研究所研究员、博士生导师,入选中科院高层次引才计划(择优支持)、吉林省青年科技人才托举工程。分别于2011 年、2016 年获得山东大学电子科学与技术专业学士学位、光学工程专业博士学位,先后在香港中文大学机械与自动化工程学系、德国马克斯普朗克量子光学研究所从事博士后研究。近年来从事包括激光吸收光谱、光频率梳光谱、光声光谱等激光光谱方法及其在气体检测方面的应用技术研究,以实现对痕量气体的高灵敏、高精度、快速测量,同时将新型光学检测方法转化为精密光学传感器件,以丰富环境、生物医药、能源领域等相关领域内重要标记物质的精密测量手段。

科研方向:
•    激光光谱技术:激光吸收光谱、光频梳光谱、光声/光热光谱、光腔衰荡光谱等技术
•    气体传感应用:深海探测、大气温室气体、食品安全、电力传输等领域

Google Scholar

ResearchGate

招生信息

拟招硕士生2人,博士生2人,博士后/研究助理1人

招生专业:080300-光学工程

招生方向:激光光谱技术、光学气体检测、非线性光学

教育与工作经历

2022-03~今,            中国科学院长春光学精密机械与物理研究所,研究员
2019-11~2022-03,   中国科学院长春光学精密机械与物理研究所,副研究员
2018-10~2019-10,   马克斯普朗克量子光学研究所,博士后(Prof. Theodor W. Hänsch's group
2016-08~2018-08,   香港中文大学,博士后(Prof. Wei Ren's group
2011-09~2016-06,   山东大学,光学工程,工学博士
2007-09~2011-06,   山东大学,电子科学与技术,工学学士

学术成果

   
期刊论文(*corresponding author)

21. M. Li, M. Hu, H. Zhang, J. Wang, T. Tang, M. Hu, and Q. Wang*, "All-Fiber Photoacoustic Gas Sensing with Interferometric Location," Photonics 9, 546 (2022). >>link

20. Z. Wang, Q. Wang*, H. Zhang, S. Borri, I. Galli, A. Sampaolo, P. Patimisco, V. L. Spagnolo, P. De Natale, and W. Ren*, "Doubly resonant sub-ppt photoacoustic gas detection with eight decades dynamic range," Photoacoustics 27, 100387 (2022). >>link中国光学

19. Z. Wang#, H. Zhang#, J. Wang, S. Jiang, S. Gao, Y. Wang, W. Jin, Q. Wang*, and W. Ren, "Photothermal multi-species detection in a hollow-core fiber with frequency-division multiplexing," Sensors and Actuators B: Chemical 369, 132333 (2022). >>link; CIOMP News; CAS News

18. Q. Wang*, Z. Wang*, H. Zhang, S. Jiang, Y. Wang, W. Jin, and W. Ren*, "Dual-comb photothermal spectroscopy," Nature Communications 13, 2181 (2022). >>link; CIOMP Banner News; CAS News; 应用光学国家重点实验室长春光机所SKLAO中国光学国家自然科学基金委Photonics Media吉林日报-彩练DeepTech深科技

17. M. Hu, M. Hu, W. Wang, and Q. Wang*, "Wavelength-scanned all-fiber cavity ring-down gas sensing using an L-band active fiber loop," Applied Physics B-Lasers and Optics, 128, 30 (2022). >>link

16.  W. Duan, F. Yan, Y. Wang, H. Zhang, L. Ma*, D. Wen, W. Wang, G. Sheng, and Q. Wang*, "A Laser-Based Multipass Absorption Sensor for Sub-ppm Detection of Methane, Acetylene and Ammonia," Sensors-Basel 22, 556 (2022). >>link

15. H. Zhang, W. Jin, M. Hu, M. Hu, J. Liang, and Q. Wang*, "Investigation and Optimization of a Line-Locked Quartz Enhanced Spectrophone for Rapid Carbon Dioxide Measurement," Sensors-Basel 21, 5225 (2021). >>link

14. J. Xia*, C. Feng, F. Zhu, S. Ye, S. Zhang, A. Kolomenskii*, Q. Wang*, J. Dong, Z. Wang, W. Jin, and H. A. Schuessler, "A sensitive methane sensor of a ppt detection level using a mid-infrared interband cascade laser and a long-path multipass cell," Sensors and Actuators B: Chemical 334, 129641 (2021). >>linkSKLAO

13. W. Jin, H. Zhang, M. Hu, M. Hu, Y. Wei, J. Liang, R. Kan, and Q. Wang*, "A Robust Optical Sensor for Remote Multi-Species Detection Combining Frequency-Division Multiplexing and Normalized Wavelength Modulation Spectroscopy," Sensors-Basel 21, 1073 (2021). >>linkMDPI

12. 王强, 许可, 姚晨雨, 王震, 常军, 任伟*, "功率增强型光声光谱气体传感技术的研究进展," 中国激光 45, 0911008-0911001 (2018). (特邀综述) >>link优秀论文; 光电汇OESHOW

11. Q. Wang, Z. Wang, W. Ren*, P. Patimisco, A. Sampaolo, and V. Spagnolo, "Fiber-ring laser intracavity QEPAS gas sensor using a 7.2 kHz quartz tuning fork," Sensors and Actuators B: Chemical, 268, 512-518 (2018). >>link

10. Q. Wang, Z. Wang, and W. Ren*, "Theoretical and experimental investigation of fiber-ring laser intracavity photoacoustic spectroscopy (FLI-PAS) for acetylene detection," Journal of Lightwave Technology, 35, 4519-4525 (2017). >>link

9. Q. Wang, Z. Wang, and W. Ren*, "Wavelength-stabilization-based photoacoustic spectroscopy for methane detection," Measurement Science and Technology, 28, 065102 (2017). >>link

8. Q. Wang, Z. Wang, J. Chang, and W. Ren*, "Fiber-ring laser-based intracavity photoacoustic spectroscopy for trace gas sensing," Optics Letters, 42, 2114-2117 (2017). >>link

7. Q. Wang, J. Chang*, F. P. Wang, and W. Wei, "Recovery of pure wavelength modulation second harmonic signal waveforms in distributed feedback diode laser-based photoacoustic spectroscopy," Sensor Actuat A-Phys 245, 54-62 (2016). >>link

6. Q. Wang, J. Chang*, W. Wei, C. G. Zhu, and C. B. Tian, "Dual-beam wavelength modulation spectroscopy for sensitive detection of water vapor," Appl Phys B-Lasers O 117, 1015-1023 (2014). >>link

5. Q. Wang, J. Chang*, Z. L. Wang, C. B. Tian, S. Jiang, and G. P. Lv, "Study of an optical fiber water vapor sensor based on a DFB diode laser: combined wavelength scanning and intensity modulation," J Mod Optic 61, 1538-1544 (2014). >>link

4. Q. Wang, J. Chang*, D. L. Kong, Y. N. Liu, F. P. Wang, C. G. Zhu, W. Wei, and X. Z. Liu, "Optical Measurement of Water Vapor Concentration and Gas Pressure," IEEE Sens J 14, 563-569 (2014). >>link

3. Q. Wang, J. Chang*, C. G. Zhu, Y. N. Liu, G. P. Lv, F. P. Wang, X. Z. Liu, and Z. L. Wang, "High-sensitive measurement of water vapor: shot-noise level performance via a noise canceller," Appl Optics 52, 1094-1099 (2013). >>link

2. Q. Wang, J. Chang*, F. J. Song, F. P. Wang, C. G. Zhu, Z. Liu, S. S. Zhang, and X. Z. Liu, "Measurement and analysis of water vapor inside optical components for optical fiber H2O sensing system," Appl Optics 52, 6445-6451 (2013). >>link

1. Q. Wang, J. Chang*, C. G. Zhu, C. Li, F. J. Song, Y. N. Liu, and X. Z. Liu, "Detection of water vapor concentration based on differential value of two adjacent absorption peaks," Laser Phys Lett 9, 421-425 (2012). >>link

发明专利

1. 一种基于环形光纤谐振腔的受激拉曼气体传感系统,第1发明人, 2021, 专利号: ZL202010354378.7

合作伙伴

1. 香港中文大学

2. 瑞典隆德大学

3. 山东大学

4. 中国海洋大学

5. 武汉理工大学

组内学生


在读研究生

2019级:胡梦鹏(博士)、张辉(博士)

2020级:赵慧圆、王昊然、李萌

2021级:金文玲(博士)、孙攀攀、樊洪强、樊凯莉(博士

2022级:张东情、周军锋

Visiting Students

1. 孙攀攀(2021),来自长春理工大学,当前为中科院长光所硕士研究生

2. 刘涵元(2021),来自长春理工大学,当前为华中科技大学硕士研究生

3. 聂沁雪(2021),来自南京航空航天大学,当前为香港中文大学博士研究生