Some recent applications of radio occultationtechnique in atmospheric proceses

In the last years, the use of radio occultation (RO) technique to observe the terrestrial atmosphere and the climate takes advantage of the occultation of the Sun, the Moon, the stars and principally of artificial satellites of low height (LEO). In the latter case, crossed signs between LEO and GPS...

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Main Authors: de la Torre, Alejandro, Alexander, Pedro, Llamedo, Pablo, Hierro, Rodrigo, Pessano, Horacio, Odiard, Andres
Format: Article in Journal/Newspaper
Language:Spanish
Published: Facultad de Humanidades Universidad Nacional del Comahue 2014
Subjects:
radio occultation
atmospheric processes
water vapor
energy
radio
ocultamiento satelital
ondas de gravedad
Antarctic
The Antarctic
Antarc*
Online Access:http://revele.uncoma.edu.ar/index.php/geografia/article/view/60
id ftunivncomaojs:oai:revele.uncoma.edu.ar:article/60
record_format openpolar
spelling ftunivncomaojs:oai:revele.uncoma.edu.ar:article/60 2023-05-15T13:52:28+02:00 Some recent applications of radio occultationtechnique in atmospheric proceses Algunas aplicaciones recientes de la técnica de radio ocultamiento satelital en el estudio de procesos atmosféricos de la Torre, Alejandro Alexander, Pedro Llamedo, Pablo Hierro, Rodrigo Pessano, Horacio Odiard, Andres 2014-04-24 application/pdf http://revele.uncoma.edu.ar/index.php/geografia/article/view/60 spa spa Facultad de Humanidades Universidad Nacional del Comahue http://revele.uncoma.edu.ar/index.php/geografia/article/view/60/pdf urn:nbn:de:bg.v0i35.60.g1386 http://revele.uncoma.edu.ar/index.php/geografia/article/view/60 Derechos de autor 2014 Boletín Geográfico https://creativecommons.org/licenses/by-nc-nd/2.5/ar/ CC-BY-NC-ND Boletin Geográfico; No. 35 (2013): Boletín Geográfico; 29-45 Boletín Geográfico; Núm. 35 (2013): Boletín Geográfico; 29-45 2313-903X 0326-1735 radio occultation atmospheric processes water vapor energy radio ocultamiento satelital ondas de gravedad info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2014 ftunivncomaojs 2022-07-26T17:39:52Z In the last years, the use of radio occultation (RO) technique to observe the terrestrial atmosphere and the climate takes advantage of the occultation of the Sun, the Moon, the stars and principally of artificial satellites of low height (LEO). In the latter case, crossed signs between LEO and GPS satellites are used. The applicationof RO's technology using transmitters of the GPS system in high orbits and recipients on board of low orbit satellites, has provided profiles of atmospheric refractivity very precise. The basic idea of a RO is to observe how waves emitted by a GPS are propagated in the atmosphere. The ray trajectory associated to a radio wave between a GPS and a LEO, while these are hiding themselves mutually due tothe interposition of the Earth, is deviated due to refractivity radients. The ray bending angle is obtained from a change in the phase (Doppler shift) of the signal received by the LEO. Assuming spherical symmetry, the deviation information may be inverted by an Abel transformation to obtain a vertical profile of the index of refraction.From atmospheric profiles of refractivity and an atmospheric model, several parameters are obtained: from temperature (T), pressure, geopotential height and water vapor to minor species as aerosols, cloud liquid water and ionospheric electron density. The enormous advantage offered by the coverage in the whole planet, above the continental and oceanic territories, the 1K T resolution, the long term stability and mainly the absence of any restriction imposed by climatic conditions, makes the GPS RO technique unique among different remote sensing atmospheric systems. Up to now, hundreds of thousands of soundings have been processed, from the first satellites to recent (SAC-C, CHAMP, GRACE, COSMIC, TerraSAR-X, MetOp). In the present work, examples of global and regional water vapor and atmospheric wave energy distributions will be shown. It will be put on special emphasis on the mountainous regions of the Andes Range at middle latitudes and the Antarctic ... Article in Journal/Newspaper Antarc* Antarctic Universidad Nacional del Comahue: E-Journals Antarctic The Antarctic
institution Open Polar
collection Universidad Nacional del Comahue: E-Journals
op_collection_id ftunivncomaojs
language Spanish
topic radio occultation
atmospheric processes
water vapor
energy
radio
ocultamiento satelital
ondas de gravedad
spellingShingle radio occultation
atmospheric processes
water vapor
energy
radio
ocultamiento satelital
ondas de gravedad
de la Torre, Alejandro
Alexander, Pedro
Llamedo, Pablo
Hierro, Rodrigo
Pessano, Horacio
Odiard, Andres
Some recent applications of radio occultationtechnique in atmospheric proceses
topic_facet radio occultation
atmospheric processes
water vapor
energy
radio
ocultamiento satelital
ondas de gravedad
description In the last years, the use of radio occultation (RO) technique to observe the terrestrial atmosphere and the climate takes advantage of the occultation of the Sun, the Moon, the stars and principally of artificial satellites of low height (LEO). In the latter case, crossed signs between LEO and GPS satellites are used. The applicationof RO's technology using transmitters of the GPS system in high orbits and recipients on board of low orbit satellites, has provided profiles of atmospheric refractivity very precise. The basic idea of a RO is to observe how waves emitted by a GPS are propagated in the atmosphere. The ray trajectory associated to a radio wave between a GPS and a LEO, while these are hiding themselves mutually due tothe interposition of the Earth, is deviated due to refractivity radients. The ray bending angle is obtained from a change in the phase (Doppler shift) of the signal received by the LEO. Assuming spherical symmetry, the deviation information may be inverted by an Abel transformation to obtain a vertical profile of the index of refraction.From atmospheric profiles of refractivity and an atmospheric model, several parameters are obtained: from temperature (T), pressure, geopotential height and water vapor to minor species as aerosols, cloud liquid water and ionospheric electron density. The enormous advantage offered by the coverage in the whole planet, above the continental and oceanic territories, the 1K T resolution, the long term stability and mainly the absence of any restriction imposed by climatic conditions, makes the GPS RO technique unique among different remote sensing atmospheric systems. Up to now, hundreds of thousands of soundings have been processed, from the first satellites to recent (SAC-C, CHAMP, GRACE, COSMIC, TerraSAR-X, MetOp). In the present work, examples of global and regional water vapor and atmospheric wave energy distributions will be shown. It will be put on special emphasis on the mountainous regions of the Andes Range at middle latitudes and the Antarctic ...
format Article in Journal/Newspaper
author de la Torre, Alejandro
Alexander, Pedro
Llamedo, Pablo
Hierro, Rodrigo
Pessano, Horacio
Odiard, Andres
author_facet de la Torre, Alejandro
Alexander, Pedro
Llamedo, Pablo
Hierro, Rodrigo
Pessano, Horacio
Odiard, Andres
author_sort de la Torre, Alejandro
title Some recent applications of radio occultationtechnique in atmospheric proceses
title_short Some recent applications of radio occultationtechnique in atmospheric proceses
title_full Some recent applications of radio occultationtechnique in atmospheric proceses
title_fullStr Some recent applications of radio occultationtechnique in atmospheric proceses
title_full_unstemmed Some recent applications of radio occultationtechnique in atmospheric proceses
title_sort some recent applications of radio occultationtechnique in atmospheric proceses
publisher Facultad de Humanidades Universidad Nacional del Comahue
publishDate 2014
url http://revele.uncoma.edu.ar/index.php/geografia/article/view/60
geographic Antarctic
The Antarctic
geographic_facet Antarctic
The Antarctic
genre Antarc*
Antarctic
genre_facet Antarc*
Antarctic
op_source Boletin Geográfico; No. 35 (2013): Boletín Geográfico; 29-45
Boletín Geográfico; Núm. 35 (2013): Boletín Geográfico; 29-45
2313-903X
0326-1735
op_relation http://revele.uncoma.edu.ar/index.php/geografia/article/view/60/pdf
urn:nbn:de:bg.v0i35.60.g1386
http://revele.uncoma.edu.ar/index.php/geografia/article/view/60
op_rights Derechos de autor 2014 Boletín Geográfico
https://creativecommons.org/licenses/by-nc-nd/2.5/ar/
op_rightsnorm CC-BY-NC-ND
_version_ 1766256762371964928

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