His scientific interests lie mostly in Atmospheric sciences, Stratosphere, Atmosphere, Lidar and Ozone. His Atmospheric sciences research integrates issues from Climatology and Radiative forcing. His Stratosphere course of study focuses on Tropospheric ozone and Atmospheric chemistry.
The concepts of his Atmosphere study are interwoven with issues in Thermal infrared and Infrared. Gérard Mégie interconnects Observatory and Meteorology in the investigation of issues within Lidar. His research investigates the connection with Ozone and areas like Altitude which intersect with concerns in Telescope, Absorption and Global Ozone Monitoring by Occultation of Stars.
His primary areas of study are Atmospheric sciences, Lidar, Remote sensing, Ozone and Stratosphere. The various areas that Gérard Mégie examines in his Atmospheric sciences study include Climatology and Aerosol. His research in Lidar intersects with topics in Atmosphere, Meteorology, Altitude, Observatory and Laser.
His Remote sensing study combines topics in areas such as Radiative transfer, Trace gas, Infrared and Spectrometer. His work on Ozone layer and Chlorine monoxide is typically connected to Total Ozone Mapping Spectrometer as part of general Ozone study, connecting several disciplines of science. His Stratosphere study which covers Troposphere that intersects with Potential vorticity and Atmosphere of Earth.
Atmospheric sciences, Remote sensing, Meteorology, Ozone and Stratosphere are his primary areas of study. The Atmospheric sciences study combines topics in areas such as Atmosphere, Infrared and Aerosol. His biological study spans a wide range of topics, including Trace gas and Thermal infrared.
As part of one scientific family, Gérard Mégie deals mainly with the area of Meteorology, narrowing it down to issues related to the Lidar, and often Altitude. His work on Ozone depletion and Ozone layer as part of general Ozone study is frequently connected to Nitrous oxide, therefore bridging the gap between diverse disciplines of science and establishing a new relationship between them. His Stratosphere study is concerned with Climatology in general.
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THE CALIPSO MISSION: A Global 3D View of Aerosols and Clouds
D. M. Winker;Jacques Pelon;J. A. Coakley;S. A. Ackerman.
Bulletin of the American Meteorological Society (2010)
The OSIRIS instrument on the Odin spacecraft
E J Llewellyn;N D Lloyd;D A Degenstein;R L Gattinger.
Canadian Journal of Physics (2004)
A three-dimensional study of the tropospheric sulfur cycle
M. Pham;J.-F. Müller;G. P. Brasseur;C. Granier.
Journal of Geophysical Research (1995)
The importance of atmospheric chemistry in the calculation of radiative forcing on the climate system
D. A. Hauglustaine;C. Granier;G. P. Brasseur;G. Mégie.
Journal of Geophysical Research (1994)
Molecular oxygen in the rho Ophiuchi cloud
B. Larsson;R. Liseau;L. Pagani;P. Bergman.
arXiv: Astrophysics (2007)
Simultaneous nighttime Lidar measurements of atmospheric sodium and potassium
G. Megie;F. Bos;J.E. Blamont;M.L. Chanin.
Planetary and Space Science (1978)
Laser sounding of atmospheric sodium interpretation in terms of global atmospheric parameters
G. Megie;J. E. Blamont.
Planetary and Space Science (1977)
SciENTIFIC AssESSMENT OF OzoNE DEPLETION: 1998
Daniel L. Albritton;Pieter J. Aucamp;Gerard Megie;Robert T. Watson.
Multiwavelength lidar for ozone measurements in the troposphere and the lower stratosphere
A. Papayannis;G. Ancellet;J. Pelon;G. Mégie.
Applied Optics (1990)
Trace gas measurements from infrared satellite for chemistry and climate applications
Cathy Clerbaux;Juliette Hadji-Lazaro;Solène Turquety;Gérard J. Mégie.
Atmospheric Chemistry and Physics (2003)
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