个人简介
教育经历
2009年8月-2013年8月 Texas A&M University 大气科学系 博士学位 (导师:Dr. Ping Yang 和 Dr. R. Lee Panetta)
2005年9月-2009年7月 同济大学 物理系 学士学位
工作经历
2014年9月- 现在 南京信息工程大学 大气物理学院 教授
2013年8月-2014年8月 Texas A&M University 大气科学系 博士后助理研究员
研究领域
大气辐射与大气遥感,具体工作涉及:
1. 基于卫星观测的冰云微物理及光学特性反演
2. 辐射传输算法及模式的开发(包含极化模式及快速模式)
3. 冰云、气溶胶模型开发及其光学特性研究
4. 非球形粒子散射算法开发及散射特性的模拟
近期论文
查看导师最新文章
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14. Jin, H., Y. Yi, S. Nasiri, C. Liu, W. Wang, J. Li, Y. Chen, 2015: Impacts of Asian dust on the determination of cloud thermodynamic phase from satellite observations, Environ. Res. Lett., in press.
13. Liu C., P. Yang, S. L. Nasiri, S. Platnick, K. G. Meyer, C. Wang, and S. Ding, 2015: A fast Visible-Infrared Imaging Radiometer Suite (VIIRS) simulator for cloudy atmospheres, J. Geophys. Res., 120, doi:10.1002/2014JD022443.
12. Yang, P., K. N. Liou, L. Bi, C. Liu, B. Yi, and B. A. Baum, 2015: On the radiative properties of ice clouds: light scattering, remote sensing and radiation parameterization, Adv. Atmos. Sci., 32, 32-63.
11. Liu, C., P. Yang, P. Minnis, N. Loeb, S. Kato, A. Heymsfield, and C. Schmitt, 2014: A two-habit model for the microphysical and optical properties of ice clouds, Atmo. Chem. Phys., 14, 13719-13737.
10. Liu, C., R. L. Panetta, and P. Yang, 2014: The effective equivalence of geometric irregularity and surface roughness in determining particle singe-scattering properties, Opt. Express, 22, 23620-23627.
9. Liu, C., R. L. Panetta, and P. Yang, 2014: Inhomogeneity structure and the applicability of effective medium approximations in calculating light scattering by inhomogeneous particles. J. Quant. Spectrosc. Radiat. Transfer, 146: 331-348.
8. Podowitz, D. I., C. Liu, P. Yang, and M. A. Yurkin, 2014: Comparison of the pseudo-spectral time domain method and the discrete dipole approximation for light scattering by ice spheres. J. Quant. Spectrosc. Radiat. Transfer, 146: 402-409.
7. Bi, L., P. Yang, C. Liu, B. Yi, B. A. Baum, B. van Diedenhoven, and H. Iwabuchi, 2014: Assessment of the accuracy of the conventional ray-tracing technique: implications in remote sensing and radiative transfer involving ice clouds. J. Quant. Spectrosc. Radiat. Transfer, 146: 158-174.
6. Liu C., R. L., Panetta, P., Yang, 2013: The effects of surface roughness on the scattering properties with sizes from the Rayleigh to the geometric-optics regimes. J. Quant. Spectrosc. Radiat. Transfer., 129:169-185.
5. Liu C., R. L., Panetta, P., Yang, A., Macke, and A. J. Baran, 2013: Modeling the scattering properties of mineral aerosols using concave fractal polyhedra. Applied Optic, 52: 640-652.
4. Liu C., L., Bi, R. L., Panetta, P., Yang, and M. A. Yurkin, 2012: Comparison of the pseudo-spectral time domain method and the discrete dipole approximation for light scattering simulations. Opt. Express, 20: 16763-16776.
3. Liu C., R. L., Panetta, and P., Yang, 2012: Application of the pseudo-spectral time domain method to compute particle single-scattering properties for size parameters up to 200. J. Quant. Spectrosc. Radiat. Transfer, 113: 1728-1740.
2. Liu C., R. L., Panetta, and P., Yang, 2012: Influence of water coating on the optical scattering properties of fractal soot aggregates. Aerosol Science and Technology, 46: 32-43.
1. Li, H., C. Liu, L. Bi, P. Yang, and G. W. Kattawar, 2010: Numerical accuracy of “equivalent” spherical approximations for computing ensemble-averaged scattering properties of fractal soot aggregates, J. Quant. Spectrosc. Radiat. Transfer, 111, 2127-2132.
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