Instrumentation for Air Pollution and Global Atmospheric Monitoring: 31 October-1 November 2001, Newton, [Mass.?]James O. Jensen, Robert L. Spellicy, Society of Photo-optical Instrumentation Engineers |
Contents
Procedures to develop standoff detector models 457402 | 7 |
Ultrahighsensitivity passive FTIR sensor HISPEC and initial field results 457403 | 18 |
modeling the spectral radiance | 26 |
Copyright | |
19 other sections not shown
Common terms and phrases
absorption spectra acousto-optic Air Pollution algorithm analysis angle AOTF array background band blackbody brightness temperature calculated calibration camera carbon disulfide CATSI cell chemical cloud cm¹ coefficient column density contaminant detection detector model difference DMMP etalon experimental Fabry-Perot Fourier transform frequency FT-NIR FTIR function Global Atmospheric Monitoring HgCdTe HiSPEC hyperspectral hyperspectral imaging IMSS infrared Instrumentation for Air interferogram interferometer Krylon laser layer lower troposphere LWIR measurements method mg/ml modes molecules NESR noise operating optical output ozone concentrations parameters passive peak pixel plume Pollution and Global ppbv predicted Proceedings of SPIE protein radiation reflectance remote sensing sample scanning sensitivity sensor shown in Figure signal signal-to-noise ratio simulation spatial spectral radiance spectral range spectral resolution spectrometer spectroscopy spectrum Spellicy SPIE Vol spore stack gas standoff surface technique thermal emission transmission tropospheric ozone tunable filter U.S. Army wavelength wavenumber