武汉理工大学汽车工程学院副研究员，硕士生导师，先进燃烧实验室Co-PI。主要从事燃烧激光诊断，激光与物质相互作用机制，复杂恶劣环境传感技术，激光气体传感器设计研究。主持国家自然科学基金，省级实验室重大项目课题，国家重点实验室开放基金，校级海外人才引进科研启动基金等多个项目。在相关领域发表SCI论文30篇，授权美国专利1项。

教育背景

博士：香港中文大学   机械与自动化工程系（机械与自动化工程）

硕士：华中科技大学   能源与动力工程学院（热能工程）

本科：华中科技大学   能源与动力工程学院（热能与动力工程）

代表性论文

[1] L. Ma, Z. Wang, K-P. Cheong, H. Ning, W. Ren*. Mid-infrared heterodyne phase-sensitive dispersion spectroscopy in flame measurements. Proceedings of the Combustion Institute 2019; 37: 1329−1336. link

[2] L. Ma, K-P. Cheong*, M. Yang, C. Yuan, W. Ren*. On the quantification of boundary layer effects on flame temperature measurements using line-of-sight absorption spectroscopy. Combustion Science and Technology 2021. link

[3] L. Ma, H. Ning, J. Wu, W. Ren*. In situ flame temperature measurements using a mid-infrared two-line H2O laser-absorption thermometry. Combustion Science and Technology 2018; 190(3),392−407. link

[4] M. Raza, L. Ma*, S. Yao, L. Chen, W. Ren*. High-temperature dual-species (CO/NH3) detection using calibration-free scanned-wavelength-modulation spectroscopy at 2.3 μm. Fuel 2021; 305, 121591. link

[5] M. Zhou, F. Yan, L. Ma*, P. Jiang, Y. Wang*, S.H. Chung. Chemical speciation and soot measurements in laminar counterflow diffusion flames of ethylene and ammonia mixtures. Fuel 2022; 308, 122003. link

[6] L. Ma, W. Du, D. Wen, Y. Wang*. Infrared multi-spectral soot emission for robust and high-fidelity flame thermometry. Optics Letters 2023; 48, 980-983. link

[7] D. Wen, L. Ma*, Y. Wang*. Effects of thermochemical non-uniformity on line-of-sight laser absorption thermometry in counterflow diffusion flames. Journal of Quantitative Spectroscopy and Radiative Transfer 2022; 277, 107990. link

[8] G. Sheng, L. Ma*, D. Wen, Y. Wang*. Simultaneous measurements of temperature, CO2 concentration and soot volume fraction in counterflow diffusion flames using a single mid-infrared laser. Applied Physics B 2022,128,62. link

[9] L. Ma, Z. Wang, K-P. Cheong, H, Ning, and W. Ren*. Temperature and H2O sensing in laminar premixed flames using mid-infrared heterodyne phase-sensitive dispersion spectroscopy. Applied Physics B 2018; 124:117. link

[10] L. Ma, Z. Wang, K-P. Cheong, H, Ning, and W. Ren*. Temperature and H2O sensing in laminar premixed flames using mid-infrared heterodyne phase-sensitive dispersion spectroscopy. Applied Physics B 2018; 124:117. link

[11] L. Ma*, K-P. Cheong*, K. Duan, W. Ren. Hybrid constraint multi-line absorption spectroscopy for non-uniform thermochemical measurements in axisymmetric laminar and jet flames. Optics and Lasers in Engineering 2022,154,107014. link

[12] L. Ma, H. Ning, J. Wu, K-P. Cheong, W. Ren*. Characterization of temperature and soot volume fraction in the laminar premixed sooting flame: laser absorption/extinction measurement and 2D CFD simulation. Energy & Fuels 2018; 32(12), 12962−70. link

[13] L. Ma, K-P. Cheong, H. Ning, W. Ren*. An improved study of the uniformity of laminar premixed flames using laser absorption spectroscopy and CFD simulation. Experimental Thermal and Fluid Science 2020; 112:110013. link

[14] L. Ma*, K. Duan, K-P. Cheong*, W. Ren. Multispectral infrared absorption spectroscopy for quantitative temperature measurements in axisymmetric laminar premixed sooting flames. Case Studies in Thermal Engineering 2021;28, 101575. link

[15] G. Sheng, J. Han, L. Ma*, W. Wang, Y. Wang. Mid-infrared absorption tomography  for in situ analysis of thermochemical structure in natural gas-fired cooker flame. Microwave and Optical Technology Letters 2022. link

[16] W. Duan, F. Yan, H. Zhang, L. Ma*, D. Wen, W. Wang, G. Sheng, Y. Wang, Q. Wang*. A laser-based multipass absorption sensor for sub-ppm detection of methane, acetylene and ammonia. Sensors 2022, 22(2), 556. link

学术兼职

《Proceedings of the Combustion Institute》、《Applied Physics B》、《Measurement Science and Technology》、《Applied Optics》、《Energy》、《Optics Express》、《Photonics Research》等期刊审稿人

荣誉奖励

2023年湖北省有关人才计划

2022年中国轻工业联合会科技进步一等奖

2022年湖北省人才计划

2021年武汉市人才计划