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1 November 1994 Estimating atmospheric extinction for eyesafe laser rangefinders
Daniel L. Hutt, Jean-Marc Theriault, Vincent Larochelle, Pierre Mathieu, Deni Bonnier
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Optical Engineering, Vol. 33, Issue 11, (November 1994). https://doi.org/10.1117/12.181167
Abstract
Extinction of laser rangefinder (LRF) pulses by the atmosphere depends on the laser wavelength, weather conditions, and the aerosol concentration along the optical path. The total atmospheric extinction α is the sum of the molecular and aerosol contributions αm and αa. We present simple expressions for αm and αa for wavelengths near 1.44, 1.54, 2.1, and 10.6 μm, which are eyesafe for most LRF applications. Also included are results for 1.06 μm, which although not an eyesafe wavelength is used extensively for LRF applications. The expressions allow the extinction coefficient to be estimated as a function of standard meteorological parameters, assuming horizontal beam propagation at sea level and a homogeneous atmosphere. Measurements of the signal-to-noise ratio of LRF returns from a calibrated target are presented for various weather conditions and wavelengths.
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Daniel L. Hutt, Jean-Marc Theriault, Vincent Larochelle, Pierre Mathieu, and Deni Bonnier "Estimating atmospheric extinction for eyesafe laser rangefinders," Optical Engineering 33(11), (1 November 1994). https://doi.org/10.1117/12.181167
Published: 1 November 1994
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KEYWORDS
Mass attenuation coefficient
Laser range finders
Atmospheric modeling
Signal to noise ratio
Aerosols
Fiber optic gyroscopes
Humidity
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