SPIE Proceedings

2008

DOI: 10.1117/12.777572

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A worldwide physics-based high spectral resolution atmospheric characterization and propagation package for UV to RF wavelengths

Matthew J. Krizo¹,

Salvatore J. Cusumano²,

Richard J. Bartell³

et al.

Abstract: The Air Force Institute of Technology's Center for Directed Energy (AFIT/CDE) developed the High Energy Laser Endto-End Operational Simulation (HELEEOS) model in part to quantify the performance variance in laser propagation created by the natural environment during dynamic engagements. As such, HELEEOS includes a fast-calculating, first principles, worldwide surface-to-100 km, atmospheric propagation and characterization package. This package enables the creation of profiles of temperature, pressure, water va… Show more

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Cited by 5 publications

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Assessing Free-Space Optical Communications Through 4D Weather Cubes

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et al. 2019

2019 IEEE Aerospace Conference

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Assessing Free-Space Optical Communications Through 4D Weather Cubes

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³

et al. 2019

2019 IEEE Aerospace Conference

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A Near-Millimeter Wave interferometric radar

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³

2013

2013 IEEE Radar Conference (RadarCon13)

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Due to the paucity of high-power sources along with strong electromagnetic absorption by water vapor at frequencies between ~100 GHz and ~10 THz, there are very few radar systems operating in the terahertz range of the spectrum. Source technology, however, is improving, thus facilitating radar systems operating in this gap. The Near-Millimeter Wave (NMMW) range typically refers to frequencies from 100 to 1000 GHz, or, wavelengths straddling the transition from millimeter to sub-millimeter (3 mm to 300 m). At the lower end of this range where components are more readily available and atmospheric attenuation is moderate an interferometric radar system for imaging surfaces up to several hundred meters has been designed and is being built. By scanning a fan beam and receiving at two displaced locations, three dimensional images of the surface topography (in range, azimuth and height) can be generated. This paper describes the design considerations for this radar and the prototype system.

Lab measurements to support modeling terahertz propagation in brownout conditions

et al. 2010

SPIE Proceedings

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No abstract

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