2011
DOI: 10.5194/amtd-4-2689-2011
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Atmospheric influences on infrared-laser signals used for occultation measurements between Low Earth Orbit satellites

Abstract: LEO-LEO infrared-laser occultation (LIO) is a new occultation technique between Low Earth Orbit (LEO) satellites, which applies signals in the short wave infrared spectral range (SWIR) within 2 μm to 2.5 μm. It is part of the LEO-LEO microwave and infrared-laser occultation (LMIO) method, recently introduced by Kirchengast and Schweitzer (2011), that enables to retrieve thermodynamic profiles (pressure, temperature, humidity) and accurate altitude levels from microwave signals and profiles of greenhouse … Show more

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Cited by 6 publications
(38 citation statements)
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“…Besides the absorption of the target greenhouse gas, also other influences due to the atmospheric background such as defocusing, foreign species absorption, Rayleigh scattering, aerosol extinction, cloud extinction, signal scintillations from turbulence, Doppler shift of signal frequencies due to line-of-sight winds, and Rayleigh as well as cloud scattering of solar radiation into the receiver are potentially relevant. The effects from these background influences, except for cloud extinction, are practically either negligibly small under most conditions or can be reduced to very small levels of residual error (typically < 0.1 %) as discussed by other studies (Emde and Proschek, 2010;Schweitzer, 2010;Kirchengast et al, 2010a;Schweitzer et al, 2011a). In the LIO forward simulations of the received intensity signals for this study we account for the main effects of attenuation, namely target and foreign species absorption, and defocusing (plus for the small Rayleigh scattering loss since easily comodeled).…”
Section: Geometry and Atmospheric Effectsmentioning
confidence: 71%
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“…Besides the absorption of the target greenhouse gas, also other influences due to the atmospheric background such as defocusing, foreign species absorption, Rayleigh scattering, aerosol extinction, cloud extinction, signal scintillations from turbulence, Doppler shift of signal frequencies due to line-of-sight winds, and Rayleigh as well as cloud scattering of solar radiation into the receiver are potentially relevant. The effects from these background influences, except for cloud extinction, are practically either negligibly small under most conditions or can be reduced to very small levels of residual error (typically < 0.1 %) as discussed by other studies (Emde and Proschek, 2010;Schweitzer, 2010;Kirchengast et al, 2010a;Schweitzer et al, 2011a). In the LIO forward simulations of the received intensity signals for this study we account for the main effects of attenuation, namely target and foreign species absorption, and defocusing (plus for the small Rayleigh scattering loss since easily comodeled).…”
Section: Geometry and Atmospheric Effectsmentioning
confidence: 71%
“…In the LIO forward simulations of the received intensity signals for this study we account for the main effects of attenuation, namely target and foreign species absorption, and defocusing (plus for the small Rayleigh scattering loss since easily comodeled). Cloudy air and a suitable retrieval will be treated in a separate study; a brief discussion of cloud influences, including limitations to tropospheric penetration of part of the events especially in the tropics, is given by Schweitzer et al (2011a). The other effects can be assumed negligible, or are sufficiently corrected to the level of thermal noise that we include.…”
Section: Geometry and Atmospheric Effectsmentioning
confidence: 99%
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