Zhou Daniel K, Smith William L, Li Jun, Howell Hugh B, Cantwell Greg W, Larar Allen M, Knuteson Robert O, Tobin David C, Revercomb Henry E, Mango Stephen A
Atmospheric Science Competency, NASA Langley Research Center, Hampton, Virginia 23681, USA.
Appl Opt. 2002 Nov 20;41(33):6957-67. doi: 10.1364/ao.41.006957.
The National Polar-Orbiting Operational Environmental Satellite System (NPOESS) Airborne Sounder Testbed (NAST) consists of two passive collocated cross-track scanning instruments, an infrared interferometer (NAST-I) and a microwave radiometer (NAST-M), that fly onboard high-altitude aircraft such as the NASA ER-2 at an altitude near 20 km. NAST-I provides relatively high spectral resolution (0.25-cm(-1)) measurements in the 645-2700-cm(-1) spectral region with moderate spatial resolution (a linear resolution equal to 13% of the aircraft altitude at nadir) cross-track scanning. We report the methodology for retrieval of atmospheric temperature and composition profiles from NAST-I radiance spectra. The profiles were determined by use of a statistical eigenvector regression algorithm and improved, as needed, by use of a nonlinear physical retrieval algorithm. Several field campaigns conducted under varied meteorological conditions have provided the data needed to verify the accuracy of the spectral radiance, the retrieval algorithm, and the scanning capabilities of this instrumentation. Retrieval examples are presented to demonstrate the ability to reveal fine-scale horizontal features with relatively high vertical resolution.
国家极轨业务环境卫星系统(NPOESS)机载探测仪试验台(NAST)由两台被动式并置的跨轨扫描仪器组成,一台红外干涉仪(NAST - I)和一台微波辐射计(NAST - M),它们搭载在诸如美国国家航空航天局(NASA)的ER - 2等高空飞机上,飞行高度接近20千米。NAST - I在645 - 2700厘米⁻¹光谱区域提供相对高的光谱分辨率(0.25厘米⁻¹)测量,具有中等空间分辨率(在最低点的线性分辨率等于飞机高度的13%)的跨轨扫描。我们报告了从NAST - I辐射光谱中反演大气温度和成分廓线的方法。廓线通过使用统计特征向量回归算法确定,并根据需要通过使用非线性物理反演算法进行改进。在各种气象条件下开展的几次实地考察提供了验证该仪器光谱辐射度、反演算法和扫描能力准确性所需的数据。给出了反演示例,以展示揭示具有相对高垂直分辨率的精细水平特征的能力。