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Interpretation of multi-wavelength-retrieved cloud droplet effective radii in terms of cloud vertical inhomogeneity using a spectral-bin microphysics cloud model and the radiative transfer computation

机译：利用谱仓微物理云模型和辐射传递计算解释云垂直不均匀性对多波长去除云滴有效半径的影响

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摘要

This study is an attempt that is made to interpret multi-wavelength-retrieved cloud droplet effective radii (CDR) and the differences among R16, R21 and R37 in term of cloud vertical droplet distribution. For this purpose, a spectral-bin microphysical cloud model and radiative transfer computation are used to generate the realistic numerical cloud field and to simulate the CDR retrieval in remote sensing. The result indicates that the cloud vertical inhomogeneous structure causes the differences among R16, R21 and R37 similar to the differences as shown in the satellite observations and the values of R16/R21 and R37/R21 are related to the stage of warm water cloud.

机译：这项研究是为了解释多波长提取的云滴有效半径（CDR）以及R16，R21和R37之间在云垂直液滴分布方面的差异。为此，使用光谱箱微物理云模型和辐射转移计算来生成实际的数值云场并模拟遥感中的CDR检索。结果表明，云垂直不均匀结构导致R16，R21和R37之间的差异与卫星观测结果相似，并且R16 / R21和R37 / R21的值与暖水云的阶段有关。

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《2011 IEEE International Geoscience Remote Sensing Symposium》|2011年|p.3229-3232|共4页
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作者
Matsui Takashi N.; Suzuki Kentaroh; Nakajima Takashi Y.; Letu Husi;
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正文语种
中图分类遥感技术;
关键词
clouds; remote sensing;

机译：云;遥感;

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专利

1. Interpretation of multiwavelength-retrieved droplet effective radii for warm water clouds in terms of in-cloud vertical inhomogeneity by using a spectral bin microphysics cloud model [J] . Nagao T.M., Suzuki K., Nakajima T.Y. Journal of the Atmospheric Sciences . 2013,第8期

机译：利用谱仓微物理学云模型解释云内垂直不均匀性对温水云的多波长提取液滴有效半径的影响
2. Radiative effects of cloud horizontal inhomogeneity and vertical overlap identified from a monthlong cloud-resolving model simulation [J] . Wu XQ, Liang XZ, Liang XZ Journal of the Atmospheric Sciences . 2005,第11期

机译：通过一个月的云解析模型模拟确定的云水平非均匀性和垂直重叠的辐射效应
3. Impact of Ice Cloud Microphysics on Satellite Cloud Retrievals and Broadband Flux Radiative Transfer Model Calculations [J] . Loeb Norman G., Yang Ping, Rose Fred G., Journal of Climate . 2018,第5期

机译：冰云微体对卫星云检索的影响和宽带助焊剂辐射转移模型计算
4. Interpretation of multi-wavelength-retrieved cloud droplet effective radii in terms of cloud vertical inhomogeneity using a spectral-bin microphysics cloud model and the radiative transfer computation [C] . Matsui Takashi N., Suzuki Kentaroh, Nakajima Takashi Y., IEEE International Geoscience and Remote Sensing Symposium . 2011

机译：利用光谱-BIN微观云模型及辐射转移计算对云垂直不均匀性方面的多波长检索云液滴有效半径的解释
5. Investigation of thin cirrus cloud optical and microphysical properties on the basis of satellite observations and fast radiative transfer models [D] . Wang, Chenxi. 2013

机译：基于卫星观测和快速辐射传输模型研究薄卷云的光学和微物理性质
6. The cloud-free global energy balance and inferred cloud radiative effects: an assessment based on direct observations and climate models [O] . Martin Wild, Maria Z. Hakuba, Doris Folini, -1

机译：无云的全球能源平衡和推断的云辐射效应：基于直接观测和气候模型的评估
7. Cloud Microphysical Properties as Seen from Spaceborne Passive Multi-Spectral Imagers: Interpretation in Terms of Vertical and Horizontal Inhomogeneity by Using Modeling and Other Spaceborne Instruments [O] . Takashi M. NAGAO, Takashi Y. NAKAJIMA, Husi LETU, 2014

机译：从星载被动多光谱成像仪中看到的云微孔物质：通过使用建模和其他星式载体的垂直和水平不均匀性来解释
8. A Hierarchical Modeling Study of the Interactions Among Turbulence, Cloud Microphysics, and Radiative Transfer in the Evolution of Cirrus Clouds [R] . Curry, Judith, Khvorostyanov, V. I. 2005

机译：卷云演化中湍流，云微物理和辐射传递相互作用的层次模拟研究

Interpretation of multi-wavelength-retrieved cloud droplet effective radii in terms of cloud vertical inhomogeneity using a spectral-bin microphysics cloud model and the radiative transfer computation

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