Hampton University 2. University of Wisconsin-Madison 3. NASA Langley Research Center

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Ultra High Spectral Resolution Satellite Remote Sounding - Results from Aircraft and Satellite Measurements W. L. Smith Sr. 1,2, D.K. Zhou 3, A. M. Larar 3, and H. E. Revercomb 2 1 Hampton University 2 University of Wisconsin-Madison 3 NASA Langley Research Center

Ultraspectral Atmospheric Sounders NAST-I & S-HIS Broad Spectral Coverage High Spectral Resolution Thousands of Spectral Channels High Information Content

Today s Ultraspectral Resolution IR Sounding Capability AIRS ER-2 NAST/SHIS Proteus

NAST and AIRS Characteristics Spatial Resolution 130m/km flight alt. (2.6 km from 20km) Swath Width 2 km /km flight alt. (40 km from 20 km) Instrument Characteristics infrared Michelson interferometer (~9000 spectral channels) 3.5 16 microns @ 0.25 cm -1 Aircraft Accommodation ER-2 Super pod & Proteus Underbelly pod Radiative Measurement Capability calibrated radiances with < 0.5 K absolute accuracy, < 0.2 K precision The NPOESS-I I Aircraft Sounder Testbed Interferometer (NAST-I) consists of a 9000 spectral channel infrared interferometer (600-2850 cm -1 ) with a spectral resolution of 0.25 cm -1. NAST-I spatially scan and provide a ground resolution of about 2.6 km and a swath width of approximately 40 km, from an aircraft altitude of 20 km. The Aqua AIRS instrument is a ~2500 spectral channel cooled grating spectrometer with a spectral resolving power of ~ 1200 (0.5 2 cm -1 spectral resolution) operating within the spectral range 650 2700 cm -1. The spatial resolution of the AIRS is about 15 km, at nadir, and its cross track scan providing a swath width of approximately 1400 km.

NAST-I I & AIRS Spectral Characteristics Spatial Resolution: 2.6 km @ 20 km with 40 km swath NAST-I (Fourier Transform Spectrometer) Spectral Range: 3.5-16 Microns Spectral Resolution: δν = 0.25 cm -1 Quasi-continuous Measurements Over Broad Spectral Regions Enable High Vertical Resolution Spatial Resolution: 13.5km @ nadir over 1650 km swath width AIRS (Grating Spectrometer) Spectral Range: 3.7 15.4 Microns Spectral Resolution: ν/δν = 1200

Data and Algorithms Used for Inter-Comparisons AIRS DATA NAST DATA AIRS Team CC Radiance (3x3 FOVs) AIRS and AMSU Data NAST-I Original Radiance NAST Team Algorithm (Zhou et. al., 2002) AIRS Team Algorithm (Susskind et. al., 2003) NAST Team Algorithm (Zhou et. al., 2002) N-Team AIRS CC Retrievals A-Team AIRS CC Retrievals N-Team NAST-I Retrievals Thermodynamic Parameter Inter-comparisons In-situ measurements by radiosonde and dropsonde

Inter-Comparisons at Trapani Trapani/Birgi, Italy, Italy (04/09/08) Trapani/Birgi (37.92N 12.5E) Retrieved Surface Skin Temperature AIRS 01:08:17 NAST-I 01:10:01 AIRS (ST) NAST Cloud RAOB Clouds Clouds Radiosonde AIRS (ST) 01:09:51 23:48:40 Cloud AIRS (NST) Deviation from RAOB Raob 23Z N-team NAST 00Z N-team AIRS 01Z N-team CC AIRS 01Z A-team AIRS 01Z

Temperature Cross Section Inter-Comparison (04/09/08) (1) NAST-Team NAST Retrieval Mean Temp. (K) Temp. (K) Temp. Deviation from the Mean (K) Cloud Cloud (2) NAST-Team AIRS Retrieval (CC) Mean Temp. (K) Temp. (K) Temp. Deviation from the Mean (K) (3) AIRS-Team AIRS Retrieval (CC)..ver. 4.0 Mean Temp. (K) Temp. (K) Temp. Deviation from the Mean (K)

Moisture Cross Section Inter-Comparison (04/09/08) (1) NAST-Team NAST Retrieval Mean RH (%) RH (%) RH Deviation from the Mean (%) Cloud Cloud (2) NAST-Team Retrieval (CC) Mean RH (%) RH (%) RH Deviation from the Mean (%) (3) AIRS-Team Retrieval (CC)..ver. 4.0 Mean RH (%) RH (%) RH Deviation from the Mean (%)

United Kingdom ( Air Chemistry) SW Sea of Wales, UK (September 14 & 18, 2004) Proteus UK BAE-146 Four day interval measurements taken at the same geographical location and local time Day-to-day variations shown by NAST-I retrievals are validated with aircraft in-situ measurements

Geostationary Imaging Fourier Transform Spectrometer New Technology for Atmospheric Temperature, Moisture, Chemistry, & Winds GIFTS 4-d d Digital Camera: Horizontal: Large area format Focal Plane detector Arrays Vertical: Fourier Transform Spectrometer Time: Geostationary Satellite

GIFTS Sampling Characteristics Two 128x 128 Infrared focal plane detector arrays with 4 km footprint size A 512 x 512 Visible focal plane detector arrays with 1 km footprint size Field of Regard 512 km x 512 km at satellite subpoint Ten second full spectral resolution integration time per Field of Regard ~ 80,000 Atmospheric Soundings every minute

Water Vapor Flux (3 x 3 GIFTS Cubes)

Primary Objective of the Geo-Sounder - Winds Profiles GIFTS - Simulation GOES - Observation

GIFTS EDU to be Ground Tested Foreoptics baffle APS optics Aft optics M1 Flip-in mirror Optical bench PMA Blackbodies Although GIFTS waits for a space flight opportunity GIFTS-like instruments are expected to fly on next generation operational geostationary weather satellites FTS

Summary o New ultra spectral remote sensing capabilities enable accurate atmospheric weather and chemistry depictions o Latest (Ver 4.0) Aqua AIRS retrievals have been validated with radiosonde, dropsonde, and high vertical resolution airborne NAST-I soundings o Future satellite ultra high spectral remote sensing instruments will provide most of the temperature and water vapor profile data for global data assimilation. o Wind profiles will be provided by future ultra high spectral resolution geostationary satellite spectrometers

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