边宇轩，副研究员，硕士生导师，2016年获北京大学大气物理学与大气环境专业博士学位，现任职于中国气象科学研究院灾害天气国家重点实验室。

从事云和气溶胶的室内实验和地基遥感观测研究，以及相关仪器的研发和算法搭建工作。主要包括：结合激光雷达和云雷达联合探测气溶胶和云微物理特性；基于CCD探测技术的新型大气边界层-气溶胶探测仪器的搭建和观测；气溶胶光学和吸湿特性的观测和分析；光学手段探测云滴谱的云室和外场试验。围绕上述研究内容，已在《Remote Sensing of Environment》、《Atmospheric Chemistry and Physics》等国内外知名学术期刊上发表文章30篇，其中第一作者/通讯作者论文10篇，总引用800余次，H因子16。授权发明专利3项，实用新型专利1项。担任IEEE-TGRS，STOTEN，OE，AO，中国环境科学，光学学报，应用气象学报等十余种期刊审稿人。

先后主持国家自然科学基金面上项目1项，北京市自然科学基金1项，中国气象科学研究院基本科研业务项目1项，作为子任务负责人和骨干成员，参加了多项国家重点研发计划课题和自然科学基金面上项目。入选中国气象局“气象科技骨干人才培养项目”。

个人主页：biany.mysxl.cn

ResearcherID: I-8911-2012

ORCID: 0000-0002-5846-417X

课题组长期招收硕士研究生

一、基本要求：
1、 身心健康，热衷科研，责任心强，有良好的团队协作精神；
2、 具有较好的英文听说读写能力。

 
二、优先考虑：
1、 大气科学、环境科学等相关专业背景；
2、 掌握一种编程语言（Python, NCL, MATLAB, Fortran等）。
3、 拥有外场试验、仪器开发经验。
 
三、待遇政策
1、津补贴按中国气象科学研究院相关规定执行，并根据实际科研进展和贡献给予补助和奖励；
2、鼓励并支持学生参加国内国际学术会议，与同行分享科研进展，提供差旅补助；
3、基于彼此的科研兴趣和基础条件，与研究生协商研究方向，教学相长。

有意向报考的同学，欢迎联系与咨询招生相关事宜。联系方式：bianyx@pku.edu.cn

教育经历：

2011.09 - 2016.07，北京大学，物理学院大气与海洋科学系，大气物理学与大气环境专业，博士

2007.09 - 2011.06，南京信息工程大学，大气物理学院，大气物理与大气环境专业，学士

工作经历：

2018.12 - 至今，中国气象科学研究院，灾害天气国家重点实验室，副研究员

2016.07 - 2018.12，中国气象科学研究院，灾害天气国家重点实验室，助理研究员

2021.09 - 2022.09，Karlsruhe Institute of Technology，访问学者

学术论文（*为通讯作者）：

1. Bian, Y. and Zhao, C.: Enhancing Our Vision of Aerosols: Progress in Scattering Phase Function Measurements, Current Pollution Reports, 10, 87-104, https://doi.org/10.1007/s40726-024-00292-z, 2024.
2. Bian, Y., Liu, L., Zheng, J., Wu, S., and Dai, G.: Classification of Cloud Phase Using Combined Ground-Based Polarization Lidar and Millimeter Cloud Radar Observations Over the Tibetan Plateau, IEEE Transactions on Geoscience and Remote Sensing, 61, 1-13, https://doi.org/10.1109/TGRS.2023.3313798, 2023.
3. Bian, Y., Hu, Y., Li, M., Li, J., Huang, M., and Ma, X.: Hail climatology and its possible attributions in Beijing, China: 1980-2021, Frontiers in Environmental Science, 10, 1097766, https://doi.org/10.3389/fenvs.2022.1097766, 2023.
4. Bian, Y., Xu, W., Hu, Y., Tao, J., Kuang, Y., and Zhao, C.: Method to retrieve aerosol extinction profiles and aerosol scattering phase functions with a modified CCD laser atmospheric detection system, Optics Express, 28, 6631-6647, https://doi.org/10.1364/oe.386214, 2020.
5. Lian, S., Bian, Y.*, Zhao, G., Li, W., and Zhao, C.: Dual CCD detection method to retrieve aerosol extinction coefficient profile, Optics Express, 27, A1529-A1543, https://doi.org/10.1364/oe.27.0a1529, 2019.
6. Bian, Y., Zhao, C., Xu, W., Kuang, Y., Tao, J., Wei, W., Ma, N., Zhao, G., Lian, S., Tan, W., and Barnes, J. E.: A novel method to retrieve the nocturnal boundary layer structure based on CCD laser aerosol detection system measurements, Remote Sensing of Environment, 211, 38-47, https://doi.org/10.1016/j.rse.2018.04.007, 2018.
7. Bian, Y., Zhao, C., Xu, W., Ma, N., Tao, J., Kuang, Y., Zhao, G., and Liu, H.: Method to retrieve the nocturnal aerosol optical depth with a CCD laser aerosol detective system, Optics Letters, 42, 4607-4610, https://doi.org/10.1364/ol.42.004607, 2017.
8. Bian, Y., Zhao, C., Xu, W., Zhao, G., Tao, J., and Kuang, Y.: Development and validation of a CCD-laser aerosol detective system for measuring the ambient aerosol phase function, Atmospheric Measurement Techniques, 10, 2313-2322, https://doi.org/10.5194/amt-10-2313-2017, 2017.
9. Bian, Y. X., Zhao, C. S., Ma, N., Chen, J., and Xu, W. Y.: A study of aerosol liquid water content based on hygroscopicity measurements at high relative humidity in the North China Plain, Atmospheric Chemistry and Physics, 14, 6417-6426, https://doi.org/10.5194/acp-14-6417-2014, 2014.
10. 虎雅琼，边宇轩*，黄梦宇，马新成：基于灾情信息的1981—2017年北京地区降雹特征，应用气象学报，30，710-721, https://doi.org/10.11898/1001-7313.20190607，2019.

11. Shi, H., Yang, D., Wang, W., Fu, D., Gao, L., Zhang, J., Hu, B., Shan, Y., Zhang, Y., Bian, Y., Chen, H., and Xia, X.: First estimation of high-resolution solar photovoltaic resource maps over China with Fengyun-4A satellite and machine learning, Renewable and Sustainable Energy Reviews, 184, 113549, 10.1016/j.rser.2023.113549, 2023.
12. Xu, W., Bian, Y., Lin, W., Zhang, Y., Wang, Y., Ma, Z., Zhang, X., Zhang, G., Ye, C., and Xu, X.: O3 and PAN in southern Tibetan Plateau determined by distinct physical and chemical processes, Atmos. Chem. Phys., 23, 7635-7652, 10.5194/acp-23-7635-2023, 2023.
13. Shi, H., Zhang, J., Zhao, B., Xia, X., Hu, B., Chen, H., Wei, J., Liu, M., Bian, Y., Fu, D., Gu, Y., and Liou, K.-N.: Surface Brightening in Eastern and Central China Since the Implementation of the Clean Air Action in 2013: Causes and Implications, Geophysical Research Letters, 48, e2020GL091105, 2021.
14. Xu, W., Kuang, Y., Liang, L., He, Y., Cheng, H., Bian, Y., Tao, J., Zhang, G., Zhao, P., Ma, N., Zhao, H., Zhou, G., Su, H., Cheng, Y., Xu, X., Shao, M., and Sun, Y.: Dust-Dominated Coarse Particles as a Medium for Rapid Secondary Organic and Inorganic Aerosol Formation in Highly Polluted Air, Environmental Science & Technology, 54, 15710-15721, 2020.
15. Wang, Y., Chen, Y., Wu, Z., Shang, D., Bian, Y., Du, Z., Schmitt, S. H., Su, R., Gkatzelis, G. I., Schlag, P., Hohaus, T., Voliotis, A., Lu, K., Zeng, L., Zhao, C., Alfarra, M. R., McFiggans, G., Wiedensohler, A., Kiendler-Scharr, A., Zhang, Y., and Hu, M.: Mutual promotion between aerosol particle liquid water and particulate nitrate enhancement leads to severe nitrate-dominated particulate matter pollution and low visibility, Atmos. Chem. Phys., 20, 2161-2175, 2020.
16. Wei, W., Zhang, H., Cai, X., Song, Y., Bian, Y., Xiao, K., and Zhang, H.: Influence of Intermittent Turbulence on Air Pollution and Its Dispersion in Winter 2016/2017 over Beijing, China, J Meteorol Res, 34, 176-188, 2020.
17. Xu, W., Kuang, Y., Bian, Y., Liu, L., Li, F., Wang, Y., Xue, B., Luo, B., Huang, S., Yuan, B., Zhao, P., and Shao, M.: Current Challenges in Visibility Improvement in Southern China, Environmental Science & Technology Letters, 7, 395-401, 2020.
18. Kuang, Y., Tao, J., Xu, W., Yu, Y., Zhao, G., Shen, C., Bian, Y., and Zhao, C.: Calculating ambient aerosol surface area concentrations using aerosol light scattering enhancement measurements, Atmospheric Environment, 216, 116919, 10.1016/j.atmosenv.2019.116919, 2019.
19. Xu, W., Kuang, Y., Zhao, C., Tao, J., Zhao, G., Bian, Y., Yang, W., Yu, Y., Shen, C., Liang, L., Zhang, G., Lin, W., and Xu, X.: NH3-promoted hydrolysis of NO2 induces explosive growth in HONO, Atmos. Chem. Phys., 19, 10557-10570, 10.5194/acp-19-10557-2019, 2019.
20. Zhang, Y., Du, W., Wang, Y., Wang, Q., Wang, H., Zheng, H., Zhang, F., Shi, H., Bian, Y., Han, Y., Fu, P., Canonaco, F., Prévôt, A. S. H., Zhu, T., Wang, P., Li, Z., and Sun, Y.: Aerosol chemistry and particle growth events at an urban downwind site in North China Plain, Atmos. Chem. Phys., 18, 14637-14651, 2018.
21. Zhao, G., Zhao, C., Kuang, Y., Bian, Y., Tao, J., Shen, C., and Yu, Y.: Calculating the aerosol asymmetry factor based on measurements from the humidified nephelometer system, Atmos. Chem. Phys., 18, 9049-9060, 2018.
22. Kuang, Y., Zhao, C. S., Zhao, G., Tao, J. C., Xu, W., Ma, N., and Bian, Y. X.: A novel method for calculating ambient aerosol liquid water content based on measurements of a humidified nephelometer system, Atmos. Meas. Tech., 11, 2967-2982, 2018.
23. Tao, J., Zhao, C., Kuang, Y., Zhao, G., Shen, C., Yu, Y., Bian, Y., and Xu, W.: A new method for calculating number concentrations of cloud condensation nuclei based on measurements of a three-wavelength humidified nephelometer system, Atmos. Meas. Tech., 11, 895-906, 2018.
24. Zhao, G., Zhao, C., Kuang, Y., Tao, J., Tan, W., Bian, Y., Li, J., and Li, C.: Impact of aerosol hygroscopic growth on retrieving aerosol extinction coefficient profiles from elastic-backscatter lidar signals, Atmos. Chem. Phys., 17, 12133-12143, 2017.
25. Kuang, Y., Zhao, C., Tao, J., Bian, Y., Ma, N., and Zhao, G.: A novel method for deriving the aerosol hygroscopicity parameter based only on measurements from a humidified nephelometer system, Atmos. Chem. Phys., 17, 6651-6662, 2017.
26. Ma, N., Zhao, C., Tao, J., Wu, Z., Kecorius, S., Wang, Z., Größ, J., Liu, H., Bian, Y., Kuang, Y., Teich, M., Spindler, G., Müller, K., van Pinxteren, D., Herrmann, H., Hu, M., and Wiedensohler, A.: Variation of CCN activity during new particle formation events in the North China Plain, Atmos. Chem. Phys., 16, 8593-8607, 2016.
27. Kuang, Y., Zhao, C. S., Ma, N., Liu, H. J., Bian, Y. X., Tao, J. C., and Hu, M.: Deliquescent phenomena of ambient aerosols on the North China Plain, Geophysical Research Letters, 43, 8744-8750, 2016.
28. Kuang, Y., Zhao, C. S., Tao, J. C., Bian, Y. X., and Ma, N.: Impact of aerosol hygroscopic growth on the direct aerosol radiative effect in summer on North China Plain, Atmospheric Environment, 147, 224-233, 2016.
29. 于仁杰，赵春生，薛惠文，马楠，陶江川，付仕佐，张健鹏，旷烨，刘宏剑，边宇轩：FLUENT 对云凝结核计数器云室内气流特征的模拟研究，北京大学学报：自然科学版，53，817-824，2017.
30. 马楠，赵春生，邓兆泽，陶江川，于仁杰，陈静，边宇轩：一种改进的 DMT 云凝结核计数器过饱和比标定方法，北京大学学报：自然科学版，50，805-811，2014.

科研项目：

国家自然科学基金面上项目：华北地区环境气溶胶散射相函数变化特征的观测研究，2020-2023，主持

北京市自然科学基金青年项目：环境气溶胶散射相函数垂直廓线遥感探测方法研究，2019-2020，主持

中国气象科学研究院基本科研业务费：水汽、云和气溶胶激光雷达的观测和反演研究，2017-2019，主持

国家重点研发计划课题：重点城市和重点区域臭氧污染影响因子研究，2018-2020，子课题负责人

国家自然科学基金面上项目：青藏高原臭氧的变化规律以及多种输送过程的影响，2019-2022，参与

奖励荣誉：

优秀气象科技前沿动态研究报告（2023）

中国气象局重点创新团队成员（2023）

气象科技骨干人才培养计划（2021）

专利授权：

一种气溶胶相函数观测系统及其观测方法，国家发明专利，2019，ZL201610393228.0，5(2)
一种气溶胶多光学特性遥感观测系统及其观测方法，国家发明专利，2019，ZL201710881207.8，3(2)
一种云粒子散射函数的探测系统、方法和装置，国家发明专利，2024，ZL202110535472.7，6(6)