Distinguishing tropospheric aerosols from thin cirrus clouds for improved aerosol retrievals using the ratio of 1.38-mu m and 1.24-mu m channels - art. no. 1890

Gao BC.; Kaufman YJ.; Tanre D.; Li RR.

首页> 外文期刊>Geophysical Research Letters >Distinguishing tropospheric aerosols from thin cirrus clouds for improved aerosol retrievals using the ratio of 1.38-mu m and 1.24-mu m channels - art. no. 1890

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Distinguishing tropospheric aerosols from thin cirrus clouds for improved aerosol retrievals using the ratio of 1.38-mu m and 1.24-mu m channels - art. no. 1890

机译：使用1.38微米和1.24微米通道的比率区分薄卷云的对流层气溶胶以改善气溶胶回收-艺术。没有。 1890年

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1] The scattering of solar radiation by cirrus clouds often contaminates aerosol products retrieved from satellite-based measurements using channels located in the visible and near-IR spectral region. Previously, it was demonstrated that a narrow satellite channel located near 1.38 mum is very effective in detecting the high level thin cirrus clouds. In this paper, we describe a ratio technique using the 1.38-mum channel and the 1.24-mum channel for identifying pixels contaminated by thin cirrus clouds so that improved aerosol and dust products can be obtained. The multi-channel data acquired with the NASA Moderate Resolution Imaging SpectroRadiometer (MODIS) on the Terra Spacecraft are used to demonstrate this technique. [References: 15

机译：1]卷云对太阳辐射的散射通常会污染通过使用可见光和近红外光谱区域中的通道从基于卫星的测量中获得的气溶胶产品。以前，已证明位于1.38毫米附近的狭窄卫星频道对于检测高水平薄卷云非常有效。在本文中，我们描述了一种比率技术，该技术使用1.38μm的通道和1.24μm的通道来识别被薄卷云污染的像素，从而可以获得改进的气溶胶和粉尘产物。通过Terra Spacecraft上的NASA中分辨率成像光谱辐射仪（MODIS）采集的多通道数据用于演示此技术。 [参考：15

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《Geophysical Research Letters》 |2002年第18期|共1页
作者
Gao BC.; Kaufman YJ.; Tanre D.; Li RR.;
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正文语种 eng
中图分类地球物理学;
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Modis; Oceans; Space;

机译：莫迪斯;海洋;太空;

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1. Distinguishing tropospheric aerosols from thin cirrus clouds for improved aerosol retrievals using the ratio of 1.38-mu m and 1.24-mu m channels - art. no. 1890 [J] . Gao BC., Kaufman YJ., Tanre D., Geophysical Research Letters . 2002,第18期

机译：使用1.38微米和1.24微米通道的比率区分薄卷云的对流层气溶胶以改善气溶胶回收-艺术。没有。 1890年
2. Impact of aerosols on the OMI tropospheric NO2 retrievals over industrialized regions: how accurate is the aerosol correction of cloud-free scenes via a simple cloud model? [J] . Chimot J., Vlemmix T., Veefkind J. P., Atmospheric Measurement Techniques . 2016,第2期

机译：气溶胶对工业化地区OMI对流层NO2取回的影响：通过简单的云模型对无云场景进行气溶胶校正的精度如何？
3. Impact of aerosols on the OMI tropospheric NOsub2/sub retrievals over industrialized regions: how accurate is the aerosol correction of cloud-free scenes via a??simple cloud model? [J] . Chimot J., Vlemmix T., Veefkind J. P., Atmospheric Measurement Techniques Discussions . 2016,第2期

机译：气溶胶对工业化地区OMI对流层NO _{2 取回的影响：通过简单的云模型对无云场景的气溶胶校正有多精确？}
4. Selection of a 1.3758-um channel for remote sensing of cirrus clouds and stratospheric aerosols from EOS/MODIS [C] . Bo-Cai Gao, NASA Goddard Space Flight Ctr., Greenbelt, Passive Infrared Remote Sensing of Clouds and the Atmosphere . 1993

机译：从EOS / MODIS中选择1.3758-um通道用于卷云和平流层气溶胶遥感
5. Simultaneous remote sensing of the optical and microphysical properties of cirrus clouds and tropospheric aerosols using aircraft and satellite data. [D] . Roskovensky, John Kevin. 2004

机译：利用飞机和卫星数据同时遥感卷云和对流层气溶胶的光学和微物理性质。
6. Type-Dependent Responses of Ice Cloud Properties to Aerosols From Satellite Retrievals [O] . Bin Zhao, Yu Gu, Kuo-Nan Liou, -1

机译：卫星检索对冰云性质对气溶胶的类型依赖性响应
7. Impact of aerosols on the OMI tropospheric NO2 retrievals over industrialized regions: how accurate is the aerosol correction of cloud-free scenes via a simple cloud model? [O] . Chimot J., Vlemmix T., Veefkind J. P., 2016

机译：气溶胶对工业化地区OMI对流层NO2取回的影响：通过简单的云模型对无云场景进行气溶胶校正的精度如何？
8. A Lidar and Backscatter Sonde Aerosol Measurement Campaign at Table Mountain During February-March 1997: Observations of Stratospheric Background Aerosols and Cirrus Clouds [R] . Beyerle, G., Gross, M., Haner, D., 1999

机译：1997年2月至3月在桌山进行激光雷达和背向散射探测器气溶胶测量活动：平流层背景气溶胶和卷云的观测

Distinguishing tropospheric aerosols from thin cirrus clouds for improved aerosol retrievals using the ratio of 1.38-mu m and 1.24-mu m channels - art. no. 1890

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