当前位置: X-MOL首页全球导师 国内导师 › 娄秀涛

个人简介

工作经历 2021.12至今 哈尔滨工业大学 物理学院 教授/博士生导师 2019.04-2021.11 哈尔滨工业大学 物理学院 副教授/博士生导师 2018.04-2019.03 哈尔滨工业大学 理学院物理系 副教授/博士生导师 2014.12-2018.03 哈尔滨工业大学 理学院物理系 副教授/硕士生导师 2012.05-2014.12 哈尔滨工业大学 理学院物理系 讲师/硕士生导师 2010.08-2011.08 瑞典Lund大学 物理系 博士后 (由欧盟EMECW项目资助,合作导师为诺贝尔物理评委会前主席Sune Svanberg院士) 2009.07-2012.04 哈尔滨工业大学 理学院物理系 讲师 教育经历 2004.9-2009.7,哈尔滨工业大学,光学专业,获博士学位 获得“哈尔滨工业大学第十批正在进行的优秀博士论文”资助 2000.9-2004.7,哈尔滨工业大学,应用物理学专业,获学士学位 荣获 “哈尔滨工业大学三好学生标兵”、“黑龙江省普通高等学校三好学生”称号 教学奖励 2023年第十一届全国大学生光电设计竞赛东北区赛一等奖指导教师(2项) 2022年全国高等学校物理基础课程青年教师讲课比赛一等奖第一名 2022年第十一届全国高校物理实验教学研讨会自制教学实验仪器评比一等奖 2022年黑龙江省教育教学成果奖一等奖 2021年第六届全国高等学校教师自制实验教学仪器设备创新大赛三等奖 2021年哈尔滨工业大学大一年度项目计划二等奖指导教师 2020年哈尔滨工业大学在线实验教学优秀案例(2项) 2018年哈尔滨工业大学大一年度项目计划一等奖指导教师 2017年哈尔滨工业大学教学成果奖二等奖

研究领域

气体检测激光光谱技术 光纤传感原理与技术

近期论文

查看导师新发文章 (温馨提示:请注意重名现象,建议点开原文通过作者单位确认)

第一/通讯作者论文 X. T. Lou, Y. Wang, N. Xu, and Y. K. Dong, Gas sensing with 7-decade dynamic range by laser vector spectroscopy combining absorption and dispersion, Photon. Res. 11, 1687 (2023). Z. Y. Yuan, X. T. Lou*, Q. Chu, T. F. Li, and Y. K. Dong*. Ultrarapid spectroscopic gas detection via frequency-agile and compressed sensing. Appl. Phys. B 128, 66 (2022). X. T. Lou, Y. B. Feng, S. H. Yang, and Y. K. Dong. Ultra-wide-dynamic-range gas sensing by optical pathlength multiplexed absorption spectroscopy. Photon. Res. 9, 193-201 (2021). X. T. Lou, Y. Wang, and Y. K. Dong. Multipoint dispersion spectroscopic gas sensing by optical FMCW interferometry. Opt. Lett. 46, 5950-5953 (2021). Z. Y. Yuan#, X. T. Lou#, and Y. K. Dong. Rapid and broadband spectroscopic gas sensing by extended optical linear chirp chain. J. Lightwave Technol. 39, 4847-4852 (2021). 娄秀涛, 王玥, 卢辉辉, 董永康. 基于光学调频连续波的气体光谱检测技术研究进展. 量子电子学报, 2021, 38: 564-579. (特邀综述封面论文) X. T. Lou, Y. B. Feng, C. Chen, and Y. K. Dong. Multi-point spectroscopic gas sensing based on coherent FMCW interferometry. Opt. Express 28, 9014-9026 (2020). Z. Y. Yuan, X. T. Lou*, and Y. K. Dong*. Microwave photonic notch filter with a tunable frequency and a bandwidth based on gas absorption. Opt. Lett. 45, 248-251 (2020). T. Zhang, X. T. Lou*, L. J. Xu, and S. L. He. Elemental mercury sensing by synchronously sweeping two multimode diode lasers. Appl. Opt. 59, 3360-3368 (2020). X. T. Lou, Z. Y. Yuan, and Y. K. Dong. Rapid spectroscopic gas sensing using optical linear chirp chain. Opt. Express 27, 13160-13171 (2019). X. T. Lou*, L. J. Xu, Y. K. Dong, T. Zhang, L. Wan, and S. L. He. Detection of elemental mercury using a frequency-doubled diode laser with wavelength modulation spectroscopy. Appl. Phys. B 125, 62 (2019). X. T. Lou, C. Chen, Y. B. Feng, and Y. K. Dong. Simultaneous measurement of gas absorption spectra and optical path lengths in a multipass cell by FMCW interferometry. Opt. Lett. 43, 2872-2875 (2018). X. T. Lou*, X. R. Zhao, X. Lin, M. L. Zhang, L. J. Xu, H. R. Wang, W. L. J. Hasi*, and Z. W. Lu*. A simple drop-and-detect method using porous alumina ceramics as platforms for rapid surface-enhanced Raman spectroscopy. J. Raman Spectrosc. 48, 89-96 (2017). X. T. Lou*, T. Zhang, H. Z. Lin, S. Y. Gao, L. J. Xu, J. N. Wang, L. Wan, and S. L. He. Detection of gaseous elemental mercury using a frequency-doubled green diode laser. Opt. Express 24, 27509-27520 (2016). X. T. Lou*, Y. K. Dong, D. C. Wu, J. T. Wei, and Z. W. Lu. Integrated cavity output spectroscopy by using a sub-centimeter short optical cavity combined with a free-running Fabry–Perot diode laser. Appl. Phys. B 121, 171-178 (2015). H. Z. Lin, X. T. Lou*, W. J. Zhong, and S. L. He. Continuous monitoring of elemental mercury employing low-cost multimode diode lasers. Meas. Sci. Technol. 26, 085501 (2015). K. K. Guo, X. T. Lou*, C. S. Yan, and L. Mei. Gas-self-filter-based erbium-doped fiber loop laser for gas detection. Appl. Opt. 53, 4811-4816 (2014). X. T. Lou, G. Somesfalean, Z. G. Zhang, and S. H. Wu. Temperature-Corrected Oxygen Detection Based on Multi-Mode Diode Laser Correlation Spectroscopy. J. Spectrosc. 2013, 524071 (2013). X. T. Lou, C. T. Xu, S. Svanberg, and G. Somesfalean. Multimode diode laser correlation spectroscopy using gas-filled porous materials for pathlength enhancement. Appl. Phys. B 109, 453-460 (2012). X. T. Lou, G. Somesfalean, S. Svanberg, Z. G. Zhang, and S. H. Wu. Detection of elemental mercury by multimode diode laser correlation spectroscopy. Opt. Express 20, 4927-4938 (2012). X. T. Lou, G. Somesfalean, B. Chen, Y. G. Zhang, H. S. Wang, Z. G. Zhang, S. H. Wu, and Y. K. Qin. Simultaneous detection of multiple-gas species by correlation spectroscopy using a multimode diode laser. Opt. Lett. 35, 1749-1751 (2010). X. T. Lou, G. Somesfalean, Z. G. Zhang, and S. Svanberg. Sulfur dioxide measurements using an ultraviolet light-emitting diode in combination with gas correlation techniques. Appl. Phys. B 94, 699-704 (2009). X. T. Lou, G. Somesfalean, B. Chen, and Z. G. Zhang. Oxygen measurement by multimode diode lasers employing gas correlation spectroscopy. Appl. Opt. 48, 990-997 (2009). X. T. Lou, G. Somesfalean, and Z. G. Zhang. Gas detection by correlation spectroscopy employing a multimode diode laser. Appl. Opt. 47, 2392-2398 (2008). X. T. Lou, G. Somesfalean, F. Xu, Y. G. Zhang, and Z. G. Zhang. Gas sensing by tunable multimode diode laser using correlation spectroscopy. Appl. Phys. B 93, 671-676 (2008). 合作作者论文 H. Zhao, W. L. J. Hasi, L. Bao, S. Q. G. W. Han, X. Y. Sha, J. Sun, X. T. Lou, D. Y. Lin, and Z. W. Lv. Rapid detection of sildenafil drugs in liquid nutraceuticals based on surface-enhanced Raman spectroscopy technology (Cover Picture). Chin. J. Chem. 35, 1522-1528 (2017). Y. P. Liu, Z. W. Lu, X. Lin, H. B. Zhu, W. L. J. Hasi, M. L. Zhang, X. R. Zhao, and X. T. Lou. A reproducible gold SERS substrate assisted by silver nanoparticles without using extra aggregation agents. RSC Adv. 6, 58387-58393 (2016). W. L. J. Hasi, X. Lin, X. T. Lou, S. Lin, F. Yang, D. Y. Lin, and Z. W. Lu. Chloride ion-assisted self-assembly of silver nanoparticles on filter paper as SERS substrate. Appl. Phys. A 118, 799-807 (2015). X. Lin, W. L. J. Hasi, X. T. Lou, S. Q. G. W. Han, D. Y. Lin, and Z. W. Lu. Direct and quantitative detection of dicyandiamide (DCD) in milk using surface-enhanced Raman spectroscopy. Anal. Methods 7, 3869-3875 (2015). X. Lin, W. L. J. Hasi, S. Q. G. W. Han, X. T. Lou, D. Y. Lin, and Z. W. Lu. Fabrication of transparent SERS platform via interface self-assembly of gold nanorods and gel trapping technique for on-site real time detection. Phys. Chem. Chem. Phys. 17, 3 31324-31331 (2015). S. Lin, W. L. J. Hasi, X. Lin, S. Q. G. W. Han, X. T. Lou, F. Yang, D. Y. Lin, and Z. W. Lu. Rapid and sensitive SERS method for determination of Rhodamine B in chili powder with paper-based substrates. Anal. Methods 7, 5289-5294 (2015). M. L. Zhang, W. L. J. Hasi, X. Lin, X. R. Zhao, X. T. Lou, S. Q. G. W. Han, D. Y. Lin, and Z. W. Lu. Rapid and simple detection of pethidine hydrochloride injection using surface-enhanced Raman spectroscopy based on silver aggregates. Anal. Methods 7, 8241-8247 (2015). X. Lin, W. L. J. Hasi, X. T. Lou, S. Lin, F. Yang, B. S. Jia, Y. Cui, D. X. Ba, D. Y. Lin, and Z. W. Lu. Rapid and simple detection of sodium thiocyanate in milk using surface-enhanced Raman spectroscopy based on silver aggregates. J. Raman Spectrosc. 45, 162-167 (2014). X. Lin, W. L. J. Hasi, X. T. Lou, S. Lin, F. Yang, B. S. Jia, D. Y. Lin, and Z. W. Lu. Droplet detection: simplification and optimization of detecting conditions towards high sensitivity quantitative determination of melamine in milk without any pretreatment. Rsc Adv 4, 51315-51320 (2014). W. L. J. Hasi, S. Lin, X. Lin, X. T. Lou, F. Yang, D. Y. Lin, and Z. W. Lu. Rapid fabrication of self-assembled interfacial film decorated filter paper as an excellent surface-enhanced Raman scattering substrate. Anal. Methods 6, 9547-9553 (2014). Q. Gao, Y. G. Zhang, J. Yu, S. H. Wu, Z. G. Zhang, F. Zheng, X. T. Lou, and W. Guo. Tunable multi-mode diode laser absorption spectroscopy for methane detection. Sensor Actuat. A 199, 106-110 (2013). Y. G. Zhang, H. S. Wang, G. Somesfalean, Z. Y. Wang, X. T. Lou, S. H. Wu, Z. G. Zhang, and Y. K. Qin. Broadband UV spectroscopy system used for monitoring of SO2 and NO emissions from thermal power plants. Atmos. Environ. 44, 4266-4271 (2010). H. S. Wang, Y. G. Zhang, S. H. Wu, X. T. Lou, Z. G. Zhang, and Y. K. Qin. Using broadband absorption spectroscopy to measure concentration of sulfur dioxide. Appl. Phys. B 100, 637-641 (2010). F. Xu, Z. Lv, X. T. Lou, Y. G. Zhang, and Z. G. Zhang. Nitrogen dioxide monitoring using a blue LED. Appl. Opt. 47, 5337-5340 (2008). 国际学术会议 X. T. Lou, C. Chen, Y. B. Feng, and Y. K. Dong. Quasi-distributed gas sensing by coherent FMCW interferometry. The 8th Asia-Pacific Optical Sensors Conference (APOS), Auckland, New Zealand, November 19-22, 2019. 口头报告 X. T. Lou, C. Chen, Y. B. Feng, and Y. K. Dong. Application of FMCW interferometer for simultaneous retrival of gas absorption spectra and optical pathlengths in a multipass cell. The 29th International Laser Radar Conference (ILRC29), Hefei, China, June 24-28, 2019. X. T. Lou, C. Chen, Y. B. Feng, and Y. K. Dong. Simultaneous measurement of gas absorption spectra and optical path lengths by FMCW interferometry. Symposium on Research Frontiers and Hot Topics of Optics and Photonic, Hong Kong, China, March 11-15, 2019. X. T. Lou, and D. C. Wu. Multimode diode laser correlation spectroscopy using off-axis cavity-enhanced techniques. Progress In Electromagnetics Research Symposium (PIERS), Guangzhou, China, August 25–28, 2014. 口头报告 X. T. Lou, D. C. Wu and J. T. Wei. Multimode diode laser correlation spectroscopy using wavelength modulated cavity-enhanced techniques. Conference on Advances in Optoelectronics and Micro/nano‐optics (AOM), Xi’an, China, September 17-20, 2014. 口头报告 X. T. Lou, C. T. Xu, G. Somesfalean, and S. Svanberg. Application of scattering porous materials as multipass gas cells in multimode diode laser correlation spectroscopy. Asia Communications and Photonics Conference (ACP), Nov. 7-10, Guangzhou, OSA Technical Digest (online), paper ATh2H.4 (2012). 口头报告 X. T. Lou, G. Somesfalean, S. Svanberg, and Z. G. Zhang. Elemental mercury detection by multi-mode diode lasers employing correlation spectroscopy. Laser Applications to Chemical, Security and Environmental Analysis (LACSEA). Jan. 29-Feb. 1, San Diego, OSA Technical Digest (CD), paper LM3B.4 (2012). 口头报告 X. T. Lou, C. T. Xu, G. Somesfalean, and S. Svanberg. Multi-mode diode laser correlation spectroscopy using gas-filled porous materials for path length enhancement”, 8th International Conference on Tunable Diode Laser Spectroscopy, Zermatt, Switzerland, July 11-15, 2011. X. T. Lou, G. Somesfalean, and Z. G. Zhang. “Temperature-corrected oxygen sensor based on multi-mode diode laser correlation spectroscopy”, 7th International Conference on Tunable Diode Laser Spectroscopy, Zermatt, Switzerland, July 13-17, 2009. X. T. Lou, G. Somesfalean, Z. G. Zhang, and S. Svanberg. Sulfur dioxide measurements by correlation spectroscopy using an ultraviolet light-emitting diode. Conference on Lasers & Electro-Optics Europe & 11th European Quantum Electronics Conference (CLEO/EQEC), Munich, Germany, June 14-19, 2009. X. T. Lou, G. Somesfalean, and Z. G. Zhang. Gas sensing using multi-mode diode lasers in combination with correlation spectroscopy. Asia Optical Fiber Communication & Optoelectronic Exposition & Conference (AOE), Oct. 30-Nov. 2, Shanghai, OSA Technical Digest (CD), paper SuR6 (2008). 口头报告 X. T. Lou, G. Somesfalean, and Z. G. Zhang. “Gas correlation spectroscopy by multimode diode lasers”, 6th International Conference on Tunable Diode Laser Spectroscopy, Reims, France, July 9-13, 2007.

推荐链接
down
wechat
bug