兰慧

发布者:数爆学院发布时间:2022-08-31浏览次数:63


基本信息

姓名:兰慧

学历:博士研究生

职称:副教授,硕士生导师

联系方式:邮箱hlanblue@foxmail.com   QQ  27417237

学习工作经历

2008.7  至今 9297至尊品牌游戏官方网站927c/人工智能学院 副教授

2020.12-2021.1武汉市政务服务和大数据管理局  大数据管理处副处长

2018.8 2020.9 美国匹兹堡大学博士后研究员

2012.9 2016.3 华中科技大学光电信息工程博士研究生 

主要研究方向

新型爆破拆除技术;

图像识别;

激光与物质相互作用;

激光雷达传感技术及应用

主要主持或参与科研工作(项目)

1.国家留学基金委公派出国博士后研修项目, 2.62万美元,主持

2.国家科技重大专项,激光等离子体极紫外光源的研究, 400万,参与

3.武汉市科学技术局项目,环路响应时间可测的原子钟频率源研究, 7万元,参与

4.武汉市创新人才开发基金项目,基于红外光谱法的土壤有机碳快速检测, 20万元,参与

5.武汉市教育局项目,准分布式光纤气体传感器网络, 5万元,参与

6.湖北省教学研究项目,人工智能背景下电信专业双虚双实实践教学改革探索,主持

7.国家教育部协同育人项目《人工智能通识实验室建设》, 主持

8.湖北省高校优秀中青年科技创新团队计划项目,《城市爆破作业安全防控及其数字化》,参与

9.湖北省自然科学基金面上项目,高能激光辐照水泥砂浆“”微爆破”损伤规律及其控制研究,主持。

 

代表性论著

期刊论文

1.M Wang, Y Yang, S Huang, H Lan, J Wu, K Zhao, Y Li, Z Peng, R Zou, Paul R Ohodnicki, Ping Lu, Michael P Buric, Bo Liu, Qingxu Yu, Kevin P Chen, Multiplexable high-temperature stable and low-loss intrinsic Fabry-Perot in-fiber sensors through nanograting engineering. Optics Express 2020, 28(14), 20225-20235. (中科院SCI一区)

2.Ran ZouXuan LiangMoamed Ashraf S. ZaghloulH LanMichael P. BuricPaul R. OhodnickiA Digital Twin Approach to Study Additive Manufacturing Processing Using Embedded Optical Fiber Sensors and Numerical ModelingJournal of Lightwave Technology 2020doi: 10.1109/JLT.2020.3010722. (中科院SCI一区)

3.H Lan, Haidong Lei, Duluo Zuo, Xinbing Wang, Guang Zheng, Ion and extreme ultraviolet emission features of CO2 laser produced Sn and SnO2 plasmas. Vacuum 2017, 135:86-92,(中科院SCI一区)

4.H Lan, XB Wang, H Chen, DL Zuo, PX Lu, Influence of a magnetic field on laser-produced Sn plasma, Plasma Sources Science and Technology 2015, 24 (5), 055012, (中科院SCI一区)

5.H Chen, X Wang, L Duan, H Lan, Z Chen, D Zuo, P Lu, Angular distribution of ions and extreme ultraviolet emission in laser-produced tin droplet plasma. Journal of Applied Physics 2015117 (19), 193302,(中科院SCI一区)

6.H Lan, Wang Xinbing, Zuo Duluo, Time-Resolved Optical Emission Spectroscopy Diagnosis of CO2 Laser-Produced SnO2 Plasma. Plasma Science and Technology 2016, 189,(中科院SCI二区)

7.H Lan, Xin-Bing Wang, and Du-Luo Zuo, Spectral and ion emission features of laser-produced Sn and SnO2 plasmas. Chinese Physics B 201625 (3), 035202,(中科院SCI二区)

8.H Lan, Effects of Magnetic Field on Laser-Produced Plasma. J. Jianghan Univ. 2016, 44 (3), 240-245,

9.H LanApplication of Origin in Experiment Data Processing of Light Intensity Response RateJ. Jianghan Univ. 2014, 42 (4).

10.Hui Lan, Hui Qi, Shunxi Wang. Research on Curriculum Reform and Practice of Signal and System[J]. Journal of Education and Educational Research (2023) 2(2).

 

会议论文

11.Hui Lan, Shunxi Wang. Teaching reform of Analog Electronic Technology Experiment Course under the Background of Artificial Intelligence[C]. SHS Web of Conferences (2023)162, 01028.

12.H Lan. The theoretical analysis of the Thz of the CO2 lsaer pumped CH3OH. International Symposium on Photonics and Optoelectronics 2014. EI收录)

13.H Lan, Haidong Lei, and Ziqi Chen, Detection system of tin droplet used for extreme ultraviolet emission sources. The International Photonics and optoelectronics Meeting (ASA and ISST) 2017, Advanced Spectroscopy and Applications, AS3A. 14 EI收录)

14.H Lan, G Zheng, X Wang, D Zuo. Optimization of the time-of-flight spectra with dual-pulse laser irradiating Sn target. The International Photonics and Optoelectronics Meeting 2017, Advanced Spectroscopy and Applications, AS3A. 29 EI收录)

15.H Lan, Scott Crawford, Zach Splain, Thomas Boyer, Paul Ohodnicki, John Baltrus, Ran Zou, Mohan Wang, and Kevin P Chen, Detection of Rare-Earth Elements Enhanced by Bio-Metal-Organic Frameworks (MOFs) Using UV LED. CLEO: Applications and Technology2019JW2A.14. EI收录)

16.M. Wang, J. Wu, H. Lan,Y. Yang, K. Zhao, S. Huang, M. Buric, P. Ohodnicki, B. Liu, Q. Yu, and K. Chen, Multiplexable Intrinsic Fabry-Perot Cavities using Femtosecond Laser Inscribed Scattering Centers, CLEO: Applications and Technology (2020) JTu2G.3.. EI收录)

授权专利

1. 发明专利:一种液滴靶发生器振动监测装置及方法,2023-7-23ZL 2021  1 0750391.9

2. 发明专利:一种自补偿式半导体激光器, 2021-8-3, ZL 2017 1 0451621.5.

3. 发明专利:一种叠层器件、清洗装置及方法, 2020-8-14, ZL 2018 11297958.6.

4. 发明专利:一种铷原子频标,2019-5-17ZL 2015 1 0937130.2  

5. 发明专利:一种测量方法及测量装置, 2017-6-15, ZL 201710451621.5.

6. 发明专利:一种自补偿式半导体激光器, 2017-6-15, CN201710451621.5.

7. 发明专利:一种激光诱导液滴靶放电产生等离子体的装置, 2017-8-1, ZL201510751138.X.

9. 发明专利:基于电磁兼容的印刷装置, 2016-2-1, ZL201610068523.9

10. 发明专利:一种铷原子频标,2019-5-17ZL 2015 1 0937130.2 


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