Daniel Korwan scite author profile

Abstract. Polar Ozone and Aerosol Measurement (POAM) III, a follow-on to the successful POAM II, is a spaceborne experiment designed to measure the vertical profiles of ozone, water vapor, nitrogen dioxide, and aerosol extinction in the polar stratosphere and upper troposphere with a vertical resolution of 1-2 km. Measurements are made by the solar occultation technique. POAM III, now in polar orbit aboard the SPOT 4 satellite, is providing data on north-and southpolar ozone phenomena, including the south-polar ozone hole, and on the spatial and temporal variability of stratospheric aerosols, polar stratospheric clouds, and polar mesospheric clouds.

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Ocean PHILLS hyperspectral imager: design, characterization, and calibration

Davis¹,

Bowles²,

Leathers³

et al. 2002

Opt. Express

178

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Abstract:The Ocean Portable Hyperspectral Imager for Low-Light Spectroscopy (Ocean PHILLS) is a hyperspectral imager specifically designed for imaging the coastal ocean. It uses a thinned, backsideilluminated CCD for high sensitivity and an all-reflective spectrograph with a convex grating in an Offner configuration to produce a nearly distortionfree image. The sensor, which was constructed entirely from commercially available components, has been successfully deployed during several oceanographic experiments in 1999-2001. Here we describe the instrument design and present the results of laboratory characterization and calibration. We also present examples of remote-sensing reflectance data obtained from the LEO-15 site in New Jersey that agrees well with ground-truth measurements. 138-170 (1996). 17. A. Offner, "Annular field systems and the future of optical microlithography," Opt. Eng. 26, 294-299 (1987). 18. P. Mouroulis, R. O. Green, and T. G. Chrien, "Design of pushbroom imaging spectrometers for optimum recovery of spectroscopic and spatial information," Appl. ©2002 Optical Society of America

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Hyperspectral Imager for the Coastal Ocean: instrument description and first images

et al. 2011

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The Hyperspectral Imager for the Coastal Ocean (HICO) is the first spaceborne hyperspectral sensor designed specifically for the coastal ocean and estuarial, riverine, or other shallow-water areas. The HICO generates hyperspectral images, primarily over the 400-900 nm spectral range, with a ground sample distance of ≈90 m (at nadir) and a high signal-to-noise ratio. The HICO is now operating on the International Space Station (ISS). Its cross-track and along-track fields of view are 42 km (at nadir) and 192 km, respectively, for a total scene area of 8000 km(2). The HICO is an innovative prototype sensor that builds on extensive experience with airborne sensors and makes extensive use of commercial off-the-shelf components to build a space sensor at a small fraction of the usual cost and time. Here we describe the instrument's design and characterization and present early images from the ISS.

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Cross-Scale Patterns in Shrub Thicket Dynamics in the Virginia Barrier Complex

et al. 2007

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Phase angle dependence of sand density observable in hyperspectral reflectance

Bachmann

Philpot

Abelev³

et al. 2014

Remote Sensing of Environment

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Daniel Korwan

The Polar Ozone and Aerosol Measurement (POAM) III instrument and early validation results

Ocean PHILLS hyperspectral imager: design, characterization, and calibration

Hyperspectral Imager for the Coastal Ocean: instrument description and first images

Cross-Scale Patterns in Shrub Thicket Dynamics in the Virginia Barrier Complex

Phase angle dependence of sand density observable in hyperspectral reflectance

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