期刊论文:
14. Y. He, F. C. Liu, Z. P. Yin, Y. P. Zhang, Y. F. Zhan, and F. Yi, Horizontally oriented ice crystals observed by the synergy of zenith- and slant-pointed polarization lidar over Wuhan (30.5 °N, 114.4 °E), China, J. Quant Spectrosc. Ra., 268, 107626, 2021.
13. F. C. Liu, R. Wang, F. Yi, W. T. Huang, C. Ban, W. L. Pan, Z. J. Wang and H. Q. Hu, Pure rotational Raman lidar for full-day troposphere temperature measurement at Zhongshan Station (69.37°S, 76.37°E), Antarctica, Opt. Express, 29(7), 10059-10076, 2021.
12. F. C. Liu, F. Yi, Z. P. Yin, Y. P. Zhang, Y. He, Y. Yi, Measurement report: Characteristics of clear-day convective boundary layer and associated entrainment zone as observed by a ground-based polarization lidar over Wuhan (30.5ºN, 114.4ºE), Atmos. Chem. Phys., 21, 2981–2998, 2021.
11. Z. P. Yin, F. Yi, Y. He, F.C. Liu, C. M. Yu, Y. P. Zhang, and W. Wang, Asian dust impacts on heterogeneous ice formation at Wuhan based on polarization lidar measurements, Atmos. Environ., 246, 118166, 2021.
10. Y. He, F. Yi, Y. Yi, F. C. Liu, and Y. P. Zhang, Heterogeneous nucleation of midlevel cloud layer influenced by transported Asian dust over Wuhan (30.5°N, 114.4°E), China, J. GEOPHYS. RES-ATMOS., 126, e2020JD033394, 2020.
9. W. Wang, F. Yi, F. C. Liu, Y. P. Zhang, C. M. Yu, and Z. P. Yin, Characteristics and Seasonal Variations of Cirrus Clouds from Polarization Lidar Observations at a 30ºN Plain Site, Remote Sens., 12, 3998, 2020.
8. X. L. Pan, F. Yi, F. C. Liu, Y. P. Zhang, and Y. Y. Yan, Diurnal temperature variations in the lower troposphere as measured by an all-day-operational pure rotational Raman lidar, Appl. Opt., 59(28): 8688-8696, 2020.
7. F.C. Liu , F. Yi, Y.P. Zhang and Y. Yi, Double-Receiver-Based Pure Rotational Raman LiDAR for Measuring Atmospheric Temperature at Altitudes Between Near Ground and Up To 35 km, IEEE T. Geosci. Remote, 57(12): 10301-10309, 2019.
6. M. Weng, F. Yi, F. C. Liu, Y. P. Zhang and X. L. Pan, Single-line-extracted pure rotational Raman lidar to measure atmospheric temperature and aerosol profiles, Opt. Express, 26(21): 27555-27571, 2018;
5. Y. Yi, S. D. Zhang, F. C. Liu, Y. P. Zhang and F. Yi, Laboratory fabrication of monolithic interferometers for one and two-dimensional spatial heterodyne spectrometers, Opt. Express, 25(23): 29121-29134, 2017;
4. F. C. Liu and F. Yi, Lidar-measured atmospheric N2 vibrational-rotational Raman spectra and consequent temperature retrieval, Opt. Express, 22(23): 27833-27844, 2014;
3. F. Yi, S. D. Zhang, C. M. Yu, Y. P. Zhang, Y. J. He, F. C. Liu, K. M. Huang, C. M. Huang and Y. Tan, Simultaneous and common-volume three-lidar observations of sporadic metal layers in the mesosphere region, J. Atmos. Sol-Terr. Phys., 102: 172-184, 2013;
2. F. C. Liu and F. Yi, Spectrally resolved Raman lidar measurements of gaseous and liquid water in the atmosphere, Appl. Opt., 52, 6884-6895, 2013;
1. F. C. Liu, F. Yi, J. Y. Jia, Y. P. Zhang, S. D. Zhang, C. M. Yu and Y. Tan, High resolution full-spectrum water Raman lidar, Sci. China. Tech. Sci., 55, 1224-1229, 2012.
授权美国专利:
1、Fan Yi, Miao Weng, Fuchao Liu, Yunpeng Zhang, Changming Yu, Yujin He, Ying Tan, Yang Yi, Xiangliang Pan,SINGLE-LINE-EXTRACTED PURE ROTATIONAL RAMAN LIDAR TO MEASURE ATMOSPHERIC TEMPERATURE AND AEROSOL PROFILES,Patent No.: US 10,620,318 B2;
授权发明专利:
9、柳付超,易帆,张云鹏等,一种小角度分光光机装置及快速装调方法,ZL2019 1 0293310.X;
8、易帆,柳付超,张云鹏等,一种高精度测量0-35km大气温度的转动拉曼激光雷达系统, ZL 2017 1 0345077.6;
7 、易帆,潘向亮,柳付超等,基于紫外准单支纯转动拉曼谱提取的全天时测温激光雷达,ZL2017 1 0198611.5;
6、易帆,潘向亮,柳付超等,一种紫外波段准单支纯转动拉曼谱线信号探测装置,ZL2017 1 0198560.6;
5、易帆,翁淼,柳付超等,一种全天时准确测量大气温度和气溶胶参数的激光雷达系统, ZL2017 1 0001666.2;
4、易帆,柳付超,张云鹏等,一种N2分子振转Raman谱的测量系统,ZL 2016 1 0226530.7;
3、易帆,柳付超,张云鹏等,一种测量大气水Raman谱和气溶胶荧光谱的激光雷达系统, ZL 2016 1 0226616.X;
2、柳付超,易帆,张云鹏等,一种分辨N2分子振转Raman谱的双光栅光谱仪系统, ZL 2016 1 0227307.4;
1、柳付超,易帆,张云鹏等,一种同时检测三相态水Raman谱信号的双光栅光谱仪系统, ZL 2016 1 0227322.9.