Model that includes a well resolved stratosphere. It is based on a stochastic approach, where an ensemble of monochromatic waves is built up, by launching few waves at each time step, and by cumulating the effect of these waves via an AR1 relation between the GWs tendency at a given time step and that at the next time step. Some properties of each waves are chosen randomly, like their wavenumbers and frequencies and with fixed probability distribution. Their amplitude nevertheless, is directly related to the precipitation, translating it in an heating rate and using linear theory to predict the amplitude of the waves such a heating can produce
Most of our observational knowledge of gravity waves in the atmosphere comes from vertical profiles ...
Sudden stratospheric warmings (SSWs) are usually considered to be initiated by planetary wave activi...
International audienceIn this article, long-duration balloon and spaceborne observations, and mesosc...
Model that includes a well resolved stratosphere. It is based on a stochastic approach, where an ens...
International audienceA formalism is proposed to parameterize the gravity waves due to convection in...
International audienceA formalism is proposed to represent a broadband spectrum of Gravity Waves (GW...
The general circulation of the middle atmosphere, particularly of the mesosphere, is strongly depend...
In order to simulate stratospheric phenomena, such as the Quasi-Biennial Oscillation (QBO), atmosphe...
International audienceBased on the theoretical and experimental facts that gravity waves (GWs) can b...
Clouds are chaotic, difficult to predict, but above all, magnificent natural phenomena. There are di...
Small-scale gravity waves (GWs) with horizontal wavelengths of tens up to several hundred kilometers...
Characteristic properties of gravity waves from convection over the continental United States are de...
Ubiquitous mesoscale gravity waves generate high cooling rates important for cirrus formation. We m...
International audienceTo challenge the hypothesis that equatorial waves in the lower stratosphere ar...
Most of our observational knowledge of gravity waves in the atmosphere comes from vertical profiles ...
Sudden stratospheric warmings (SSWs) are usually considered to be initiated by planetary wave activi...
International audienceIn this article, long-duration balloon and spaceborne observations, and mesosc...
Model that includes a well resolved stratosphere. It is based on a stochastic approach, where an ens...
International audienceA formalism is proposed to parameterize the gravity waves due to convection in...
International audienceA formalism is proposed to represent a broadband spectrum of Gravity Waves (GW...
The general circulation of the middle atmosphere, particularly of the mesosphere, is strongly depend...
In order to simulate stratospheric phenomena, such as the Quasi-Biennial Oscillation (QBO), atmosphe...
International audienceBased on the theoretical and experimental facts that gravity waves (GWs) can b...
Clouds are chaotic, difficult to predict, but above all, magnificent natural phenomena. There are di...
Small-scale gravity waves (GWs) with horizontal wavelengths of tens up to several hundred kilometers...
Characteristic properties of gravity waves from convection over the continental United States are de...
Ubiquitous mesoscale gravity waves generate high cooling rates important for cirrus formation. We m...
International audienceTo challenge the hypothesis that equatorial waves in the lower stratosphere ar...
Most of our observational knowledge of gravity waves in the atmosphere comes from vertical profiles ...
Sudden stratospheric warmings (SSWs) are usually considered to be initiated by planetary wave activi...
International audienceIn this article, long-duration balloon and spaceborne observations, and mesosc...