A. S. Ackerman and M. S. Marley, Precipitating Condensation Clouds in Substellar Atmospheres, The Astrophysical Journal, vol.556, pp.872-884, 2001.

W. S. Adams and T. Dunham, Absorption Bands in the Infra-Red Spectrum of Venus, Publications of the Astronomical Society of the Pacific, vol.44, pp.243-245, 1932.

A. Adriani, A. Mura, G. Orton, C. Hansen, F. Altieri et al., Clusters of cyclones encircling Jupiter's poles, Nature, vol.555, pp.216-219, 2018.

E. M. Agee, T. S. Chen, and K. E. Dowell, A Review of Mesoscale Cellular Convection, Bulletin of the American Meteorological Society, vol.54, pp.1004-1012, 1973.

M. W. Airey, T. A. Mather, D. M. Pyle, L. S. Glaze, R. C. Ghail et al., Explosive volcanic activity on Venus : The roles of volatile contribution, degassing, and external environment, Planetary and Space Science, vol.113, pp.33-48, 2015.

M. J. Alexander and J. R. Holton, A Model Study of Zonal Forcing in the Equatorial Stratosphere by Convectively Induced Gravity Waves, Journal of Atmospheric Sciences, vol.54, pp.408-419, 1997.

M. J. Alexander and L. Pfister, Gravity wave momentum flux in the lower stratosphere over convection, Geophysical Research Letters, vol.22, p.27, 1995.

S. J. Allen and R. A. Vincent, Gravity wave activity in the lower atmosphere : Seasonal and latitudinal variations, Journal of Geophysical Research, vol.100, pp.1327-1350, 1995.

U. Anber, S. Wang, and A. Sobel, Coupling with ocean mixed layer leads to intraseasonal variability in tropical deep convection : Evidence from cloud-resolving simulations, Journal of Advances in Modeling Earth Systems, vol.9, pp.616-626, 2017.

H. Ando, T. Imamura, N. Sugimoto, M. Takagi, H. Kashimura et al., Vertical structure of the axi-asymmetric temperature disturbance in the Venusian polar atmosphere : Comparison between radio occultation measurements and GCM results, Journal of Geophysical Research (Planets), vol.122, p.41, 2017.

H. Ando, T. Imamura, T. Tsuda, S. Tellmann, M. Pätzold et al., Vertical Wavenumber Spectra of Gravity Waves in the Venus Atmosphere Obtained fromVenus ExpressRadio Occultation Data : Evidence for Saturation, Journal of Atmospheric Sciences, vol.72, pp.2318-2329, 2015.

D. G. Andrews, On the interpretation of the Eliassen-palm flux divergence, Quarterly Journal of the Royal Meteorological Society, vol.113, p.93, 1987.

G. Anglada-escudé, P. J. Amado, J. Barnes, Z. M. Berdiñas, R. P. Butler et al., A terrestrial planet candidate in a temperate orbit around Proxima Centauri, Nature, vol.536, pp.437-440, 2016.

G. Angot, P. Keckhut, A. Hauchecorne, C. , and C. , Contribution of stratospheric warmings to temperature trends in the middle atmosphere from the lidar series obtained at Haute-Provence Observatory (44 ? N), Journal of Geophysical Research (Atmospheres), vol.117, p.23, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00749188

J. K. Ansong and B. R. Sutherland, Internal gravity waves generated by convective plumes, Journal of Fluid Mechanics, vol.648, p.405, 2010.

D. Apai, J. Radigan, E. Buenzli, A. Burrows, I. N. Reid et al., HST Spectral Mapping of L/T Transition Brown Dwarfs Reveals Cloud Thickness Variations, The Astrophysical Journal, vol.768, p.121, 2013.

J. Apt, R. A. Brown, and R. M. Goody, The character of the thermal emission from Venus, Journal of Geophysical Research, vol.85, pp.7934-7940, 1980.

A. Arakawa, Computational design for long-term numerical integration of the equations of fluid motion : Two-dimensional incompressible flow. part i, Journal of Computational Physics, vol.1, issue.1, p.49, 1966.

G. Arney, V. Meadows, D. Crisp, S. J. Schmidt, J. Bailey et al., Spatially resolved measurements of H 2 O, HCl, CO, OCS, SO 2 , cloud opacity, and acid concentration in the Venus near-infrared spectral windows, Journal of Geophysical Research (Planets), vol.119, pp.1860-1891, 2014.

J. Arregi, J. F. Rojas, R. Hueso, and A. Sánchez-lavega, Gravity waves in Jupiter's equatorial clouds observed by the Galileo orbiter, Icarus, vol.202, p.23, 2009.

S. Arrhenius, The Destinies of the Stars, vol.2, 1918.

B. W. Atkinson and J. Wu-zhang, Mesoscale shallow convection in the atmosphere, Reviews of Geophysics, vol.34, pp.403-431, 1996.

V. S. Avduevskij, M. Y. Marov, B. E. Moshkin, and A. P. Ekonomov, Venera 8 : measurements of solar illumination through the atmosphere of Venus, Journal of Atmospheric Sciences, vol.30, p.12, 1973.

R. D. Baker, G. Schubert, and P. W. Jones, Cloud-Level Penetrative Compressible Convection in the Venus Atmosphere, J. of Atm. Sc, vol.55, pp.3-18, 1998.

R. D. Baker, G. Schubert, and P. W. Jones, High Rayleigh number compressible convection in Venus' atmosphere : Penetration, entrainment, and turbulence, J. of Geophys. Res, vol.104, p.139, 1999.

R. D. Baker, G. Schubert, and P. W. Jones, Convectively generated internal gravity waves in the lower atmosphere of Venus. I. No wind shear, J. of Atm. Sc, vol.57, pp.184-199, 2000.

R. D. Baker, G. Schubert, and P. W. Jones, Convectively generated internal gravity waves in the lower atmosphere of Venus. II. Mean wind shear and wave-mean flow interaction, J. of Atm. Sc, vol.57, pp.200-215, 2000.

I. I. Baker, R. D. Schubert, and G. , Cellular convection in the atmosphere of Venus, Nature, vol.355, pp.710-712, 1992.

J. K. Barstow, C. C. Tsang, C. F. Wilson, P. G. Irwin, F. W. Taylor et al., Models of the global cloud structure on Venus derived from Venus Express observations, Icarus, vol.217, pp.542-560, 2012.
URL : https://hal.archives-ouvertes.fr/hal-02882437

V. L. Barsukov, A. T. Bazilevskii, G. A. Burba, N. N. Bobina, and V. P. Kriuchkov, The geology and geomorphology of the Venus surface as revealed by the radar images obtained by Veneras 15 and 16, Journal of Geophysical Research, vol.91, p.29, 1986.

A. T. Basilevsky and G. E. Mcgill, Surface evolution of Venus, Washington DC American Geophysical Union Geophysical Monograph Series, vol.176, p.31, 2007.

M. J. Belton, P. J. Gierasch, M. D. Smith, P. Helfenstein, P. J. Schinder et al., Images from Galileo of the Venus cloud deck, Science, vol.253, pp.1531-1536, 1991.

M. J. Belton, G. R. Smith, G. Schubert, and A. D. Genio, Cloud patterns, waves and convection in the Venus atmosphere, Journal of Atmospheric Sciences, vol.33, pp.1394-1417, 1976.

D. A. Belyaev, F. Montmessin, J. Bertaux, A. Mahieux, A. A. Fedorova et al., Vertical profiling of SO 2 and SO above Venus' clouds by SPICAV/SOIR solar occultations, Icarus, vol.217, p.34, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00629675

J. Bertaux, I. V. Khatuntsev, A. Hauchecorne, W. J. Markiewicz, E. Marcq et al., Influence of Venus topography on the zonal wind and UV albedo at cloud top level : The role of stationary gravity waves, Journal of Geophysical Research (Planets), vol.121, pp.1087-1101, 2016.
URL : https://hal.archives-ouvertes.fr/insu-01328045

J. Bertaux, A. Vandaele, O. Korablev, E. Villard, A. Fedorova et al., A warm layer in Venus' cryosphere and high-altitude measurements of HF, vol.450, p.34, 2007.
URL : https://hal.archives-ouvertes.fr/hal-00196391

B. Bézard and C. De-bergh, Composition of the atmosphere of Venus below the clouds, Journal of Geophysical Research (Planets), vol.112, pp.4-07, 2007.

J. E. Blamont, R. E. Young, A. Seiff, B. Ragent, R. Sagdeev et al., Implications of the VEGA balloon results for Venus atmospheric dynamics, Science, vol.231, pp.1422-1425, 1986.

O. Boucher, H. Le-treut, and M. B. Baker, Precipitation and radiation modeling in a general circulation model : Introduction of cloud microphysical processes, Journal of Geophysical Research : Atmospheres, vol.100, p.16, 1995.

F. H. Busse, B´enard Convection and Geophysical Applications, Springer, editor, Dynamics of Spatio-Temporal Cellular Structures. Henri Benard Centenary Review, p.19, 2006.

D. B. Campbell and B. A. Burns, Earth-based radar imagery of Venus, Journal of Geophysical Research, vol.85, p.29, 1980.

D. Charbonneau, T. M. Brown, R. W. Noyes, and R. L. Gilliland, Detection of an Extrasolar Planet Atmosphere, The Astrophysical Journal, vol.568, p.119, 2002.

B. Charnay, E. Barth, S. Rafkin, C. Narteau, S. Lebonnois et al., Methane storms as a driver of Titan's dune orientation, Nature Geoscience, vol.8, p.135, 2015.

B. Charnay, B. Bézard, J. Baudino, M. Bonnefoy, A. Boccaletti et al., A Self-consistent Cloud Model for Brown Dwarfs and Young Giant Exoplanets : Comparison with Photometric and Spectroscopic Observations, The Astrophysical Journal, vol.854, p.172, 2018.
URL : https://hal.archives-ouvertes.fr/hal-02293351

B. Charnay, G. Le-hir, F. Fluteau, F. Forget, and D. C. Catling, A warm or a cold early Earth ? New insights from a 3-D climate-carbon model, Earth and Planetary Science Letters, vol.474, p.134, 2017.
URL : https://hal.archives-ouvertes.fr/obspm-02193082

B. Charnay and S. Lebonnois, Two boundary layers in Titan's lower troposphere inferred from a climate model, Nature Geoscience, vol.5, pp.106-109, 2012.

J. Cimino, The composition and vertical structure of the lower cloud deck on Venus, Icarus, vol.51, pp.334-357, 1982.

T. L. Clark and R. Gall, Three-Dimensional Numerical Model Simulations of Airflow Over Mountainous Terrain : A Comparison with Observations, Monthly Weather Review, vol.110, p.766, 1982.

T. L. Clark, T. Hauf, and J. P. Kuettner, Convectively forced internal gravity waves : Results from two-dimensional numerical experiments, Quarterly Journal of the Royal Meteorological Society, vol.112, pp.899-925, 1986.

A. Colaïtis, A. Spiga, F. Hourdin, C. Rio, F. Forget et al., A thermal plume model for the Martian convective boundary layer, Journal of Geophysical Research, 2013.

L. Costantino, P. Heinrich, N. Mzé, and A. Hauchecorne, Convective gravity wave propagation and breaking in the stratosphere : comparison between WRF model simulations and lidar data, Annales Geophysicae, vol.33, pp.1155-1171, 2015.
URL : https://hal.archives-ouvertes.fr/insu-01203159

V. Cottini, N. I. Ignatiev, G. Piccioni, and P. Drossart, Water vapor near Venus cloud tops from VIRTIS-H/Venus express observations, Planetary and Space Science, vol.113, pp.219-225, 2006.
URL : https://hal.archives-ouvertes.fr/hal-02423556

V. Cottini, N. I. Ignatiev, G. Piccioni, P. Drossart, D. Grassi et al., Water vapor near the cloud tops of Venus from Venus Express/VIRTIS dayside data, Icarus, vol.217, pp.561-569, 2012.
URL : https://hal.archives-ouvertes.fr/hal-02883527

C. C. Counselman, S. A. Gourevitch, R. W. King, G. B. Loriot, and E. S. Ginsberg, Zonal and meridional circulation of the lower atmosphere of Venus determined by radio interferometry, Journal of Geophysical Research, vol.85, pp.8026-8030, 1980.

R. Courant, K. Friedrichs, and H. Lewy, Über die partiellen Differenzengleichungen der mathematischen Physik, Mathematische Annalen, vol.100, p.49, 1928.

A. Coustenis, D. E. Jennings, R. K. Achterberg, G. Bampasidis, P. Lavvas et al., Titan's temporal evolution in stratospheric trace gases near the poles, Icarus, vol.270, pp.409-420, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01198804

C. C. Covey and G. Schubert, Mesoscale convection in the clouds of Venus, Nature, vol.290, pp.17-20, 1981.

D. Crisp, Radiative forcing of the Venus mesosphere. I -Solar fluxes and heating rates, Icarus, vol.67, pp.484-514, 1986.

H. C. Davies and R. E. Turner, Updating prediction models by dynamical relaxation : an examination of the technique, Quarterly Journal of the Royal Meteorological Society, vol.103, issue.436, p.54, 1977.

J. W. Deardorff, Numerical Investigation of Neutral and Unstable Planetary Boundary Layers, Journal of Atmospheric Sciences, vol.29, pp.91-115, 1972.

A. D. Del-genio and W. B. Rossow, Planetary-scale waves and the cyclic nature of cloud top dynamics on Venus, vol.47, pp.293-318, 1990.

T. Dubos, S. Dubey, M. Tort, R. Mittal, Y. Meurdesoif et al., DYNAMICO-1.0, an icosahedral hydrostatic dynamical core designed for consistency and versatility, Geoscientific Model Development, vol.8, pp.3131-3150, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01266387

T. J. Dunkerton, The role of gravity waves in the quasi-biennial oscillation, Journal of Geophysical Research, vol.102, pp.26053-26076, 1997.

D. Durran, J. R. Holton, J. Pyle, and J. A. Curry, Encyclopedia of Atmospheric Sciences, pp.1161-1169, 2003.

A. Eliassen, The quasi-static equations of motion with pressure as independent variable, Geofys. Publ, vol.17, 1949.

T. Bibliographie-encrenaz, T. K. Greathouse, H. Roe, M. Richter, J. Lacy et al., HDO and SO 2 thermal mapping on Venus : evidence for strong SO 2 variability, Astronomy and Astrophysics, vol.543, p.34, 2012.

T. Encrenaz, R. Moreno, A. Moullet, E. Lellouch, and T. Fouchet, Submillimeter mapping of mesospheric minor species on Venus with ALMA, Planetary and Space Science, vol.113, p.34, 2015.
URL : https://hal.archives-ouvertes.fr/hal-02441883

M. Ern, P. Preusse, M. J. Alexander, and C. D. Warner, Absolute values of gravity wave momentum flux derived from satellite data, Journal of Geophysical Research (Atmospheres), vol.109, 2004.

L. W. Esposito, J. Bertaux, V. Krasnopolsky, V. I. Moroz, and L. V. Zasova, Chemistry of lower atmosphere and clouds, Venus II : Geology, Geophysics, Atmosphere, and Solar Wind Environment, p.34, 1997.

L. W. Esposito, M. Copley, R. Eckert, L. Gates, A. I. Stewart et al., Sulfur dioxide at the Venus cloud tops, 1978-1986, Journal of Geophysical Research, vol.93, p.134, 1988.

L. W. Esposito, R. G. Knollenberg, M. I. Marov, O. B. Toon, and R. P. Turco, The clouds are hazes of Venus, p.32, 1983.

V. Eymet, C. Coustet, and B. Piaud, kspectrum : an open-source code for high-resolution molecular absorption spectra production, Journal of Physics Conference Series, vol.676, 2016.

V. Eymet, R. Fournier, J. Dufresne, S. Lebonnois, F. Hourdin et al., Net exchange parameterization of thermal infrared radiative transfer in Venus' atmosphere, J. of Geophys. Res. (Planets), vol.114, 2009.

A. Fedorova, B. Bézard, J. Bertaux, O. Korablev, W. et al., The CO 2 continuum absorption in the 1.10-and 1.18-µm windows on Venus from Maxwell Montes transits by SPICAV IR onboard Venus express, Planetary and Space Science, vol.113, pp.66-77, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01059379

P. G. Ford and G. H. Pettengill, Venus topography and kilometer-scale slopes, Journal of Geophysical Research, vol.97, issue.13, 1992.

F. Forget, T. Bertrand, M. Vangvichith, J. Leconte, E. Millour et al., A post-new horizons global climate model of Pluto including the N 2 , CH 4 and CO cycles, Icarus, vol.287, p.135, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01427123

F. Forget and S. Lebonnois, Global Climate Models of the Terrestrial Planets, p.39, 2013.

F. Forget and J. Leconte, Possible climates on terrestrial exoplanets, Philosophical Transactions of the Royal Society of London Series A, vol.372, p.119, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01088926

F. Forget, R. Wordsworth, E. Millour, J. Madeleine, L. Kerber et al., 3D modelling of the early martian climate under a denser CO 2 atmosphere : Temperatures and CO 2 ice clouds, Icarus, vol.222, pp.81-99, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00747673

R. Fovell, D. Durran, and J. R. Holton, Numerical Simulations of Convectively Generated Stratospheric Gravity Waves, Journal of Atmospheric Sciences, vol.49, pp.1427-1442, 1992.

B. N. Frandsen, P. O. Wennberg, and H. G. Kjaergaard, Identification of OSSO as a near-UV absorber in the Venusian atmosphere, Geophysical Research Letters, vol.43, p.33, 2016.

B. Freytag, F. Allard, H. Ludwig, D. Homeier, and M. Steffen, The role of convection, overshoot, and gravity waves for the transport of dust in M dwarf and brown dwarf atmospheres, Astronomy and Astrophysics, vol.513, p.19, 2010.

D. C. Frits and M. J. Alexander, Gravity wave dynamics and effects in the middle atmosphere, Rev. of. Geoph, vol.41, pp.1112-1131, 2003.

D. C. Fritts, Shear Excitation of Atmospheric Gravity Waves, Journal of Atmospheric Sciences, vol.39, pp.1936-1952, 1982.

T. Fukuhara, M. Futaguchi, G. L. Hashimoto, T. Horinouchi, T. Imamura et al., Large stationary gravity wave in the atmosphere of Venus, Nature Geoscience, pp.85-88, 2017.

I. Garate-lopez, A. García-muñoz, R. Hueso, and A. Sánchez-lavega, Instantaneous threedimensional thermal structure of the South Polar Vortex of Venus, Icarus, vol.245, p.16, 2015.

I. Garate-lopez, R. Hueso, A. Sánchez-lavega, J. Peralta, G. Piccioni et al., A chaotic long-lived vortex at the southern pole of Venus, Nature Geoscience, vol.6, p.16, 2013.
URL : https://hal.archives-ouvertes.fr/hal-02519468

I. Garate-lopez and S. Lebonnois, Latitudinal Variation of Clouds' Structure Responsible for Venus' Cold Collar, Icarus, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01799821

R. F. Garcia, P. Drossart, G. Piccioni, M. López-valverde, and G. Occhipinti, Gravity waves in the upper atmosphere of Venus revealed by CO 2 nonlocal thermodynamic equilibrium emissions, Journal of Geophysical Research (Planets), vol.114, pp.0-32, 2009.

J. R. Garratt, Review : the atmospheric boundary layer, Earth Science Reviews, vol.37, p.99, 1994.

A. Gerardo, Discovering Discovery : Chichâen Itza, the Dresden Codex Venus Table and 10th Century Mayan Astronomical Innovation, Journal of Astronomy in Culture, vol.1, 2016.

R. C. Ghail, D. Hall, P. J. Mason, R. R. Herrick, L. M. Carter et al., VenSAR on EnVision : Taking earth observation radar to Venus, International Journal of Applied Earth Observation and Geoinformation, vol.64, pp.365-376, 2018.

P. J. Gierasch, Meridional circulation and the maintenance of the Venus atmospheric rotation, Journal of Atmospheric Sciences, vol.32, p.14, 1975.

P. J. Gierasch, R. M. Goody, R. E. Young, D. Crisp, C. Edwards et al., The General Circulation of the Venus Atmosphere : an Assessment, Venus II : Geology, Geophysics, Atmosphere, and Solar Wind Environment, p.459, 1997.

G. Gilli, S. Lebonnois, F. González-galindo, M. A. López-valverde, A. Stolzenbach et al., Thermal structure of the upper atmosphere of Venus simulated by a ground-to-thermosphere GCM, Icarus, vol.281, pp.55-72, 2017.
URL : https://hal.archives-ouvertes.fr/insu-01367917

M. Gillon, E. Jehin, S. M. Lederer, L. Delrez, J. De-wit et al., Temperate Earth-sized planets transiting a nearby ultracool dwarf star, Nature, vol.533, pp.221-224, 2016.

G. R. Gladstone, S. A. Stern, K. Ennico, C. B. Olkin, H. A. Weaver et al., , 2016.

L. S. Glaze, Transport of SO 2 by explosive volcanism on Venus, Journal of Geophysical Research, vol.104, p.134, 1999.

R. Greeley, R. E. Arvidson, C. Elachi, M. A. Geringer, J. J. Plaut et al., Aeolian features on Venus -Preliminary Magellan results, Journal of Geophysical Research, vol.97, issue.13, p.31, 1992.

R. Greeley, K. Bender, P. E. Thomas, G. Schubert, D. Limonadi et al., Windrelated features and processes on Venus : Summary of Magellan results, Icarus, vol.115, p.31, 1995.

T. P. Greene, M. R. Line, C. Montero, J. J. Fortney, J. Lustig-yaeger et al., , 2016.

, Characterizing Transiting Exoplanet Atmospheres with JWST. The Astrophysical Journal, vol.817, p.134

D. H. Grinspoon, J. B. Pollack, B. R. Sitton, R. W. Carlson, L. W. Kamp et al., Probing Venus's cloud structure with Galileo NIMS, Planetary and Space Science, vol.41, pp.515-542, 1993.

S. Guerlet, A. Spiga, M. Sylvestre, M. Indurain, T. Fouchet et al., Global climate modeling of Saturn atmosphere. Part I : Evaluation of the radiative transfer model, Icarus, vol.238, pp.110-124, 2014.
URL : https://hal.archives-ouvertes.fr/hal-02384506

J. E. Hansen and L. D. Travis, Light scattering in planetary atmospheres, Space Science Reviews, vol.16, pp.527-610, 1974.

B. Hapke and F. Graham, Spectral properties of condensed phases of disulfur monoxide, polysulfur oxide, and irradiated sulfur, Icarus, vol.79, pp.47-55, 1989.

R. Haus, D. Kappel, A. , and G. , Self-consistent retrieval of temperature profiles and cloud structure in the northern hemisphere of Venus using VIRTIS/VEX and PMV/VENERA-15 radiation measurements, Plan. and Sp. Sc, vol.89, pp.77-101, 2013.

R. Haus, D. Kappel, A. , and G. , Atmospheric thermal structure and cloud features in the southern hemisphere of Venus as retrieved from VIRTIS/VEX radiation measurements, Icarus, vol.232, pp.76-81, 2014.

R. Haus, D. Kappel, A. , and G. , Radiative heating and cooling in the middle and lower atmosphere of Venus and responses to atmospheric and spectroscopic parameter variations, Planetary and Space Science, vol.117, pp.262-294, 2015.

A. Hertzog and F. Vial, A study of the dynamics of the equatorial lower stratosphere by use of ultra-long-duration balloons, 2, Gravity waves, Journal of Geophysical Research : Atmospheres, vol.106, p.23, 2001.

R. Hide, Dynamics of the Atmospheres of the Major Planets with an Appendix on the Viscous Boundary Layer at the Rigid Bounding Surface of an Electrically-Conducting Rotating Fluid in the Presence of a Magnetic Field, Journal of Atmospheric Sciences, vol.26, p.13, 1969.

C. O. Hines, Internal atmospheric gravity waves at ionospheric heights, Canadian Journal of Physics, vol.38, p.1441, 1960.

K. M. Hines and D. H. Bromwich, Simulation of Late Summer Arctic Clouds during ASCOS with Polar WRF, Monthly Weather Review, vol.145, pp.521-541, 2017.

D. P. Hinson and J. M. Jenkins, Magellan radio occultation measurements of atmospheric waves on Venus, Icarus, vol.114, pp.310-327, 1995.

D. P. Hinson, R. A. Simpson, J. D. Twicken, G. L. Tyler, and F. M. Flasar, Initial results from radio occultation measurements with Mars Global Surveyor, Journal of Geophysical Research, vol.104, p.23, 1999.

D. P. Hinson and G. L. Tyler, Internal gravity waves in Titan's atmosphere observed by Voyager radio occultation, Icarus, vol.54, pp.337-352, 1983.

. Bibliographie,

T. Horinouchi, Simulated breaking of convectively generated mesoscale gravity waves and airglow modulation, Journal of Atmospheric and Solar-Terrestrial Physics, vol.66, p.91, 2004.

T. Horinouchi, S. Murakami, T. Satoh, J. Peralta, K. Ogohara et al., Equatorial jet in the lower to middle cloud layer of Venus revealed by Akatsuki, Nature Geoscience, vol.10, p.14, 2017.

T. Horinouchi, T. Nakamura, and J. Kosaka, Convectively generated mesoscale gravity waves simulated throughout the middle atmosphere, Geophysical Research Letters, vol.29, 2002.

A. Y. Hou and B. F. Farrell, Superrotation induced by critical-level absorption of gravity waves on Venus -an assessment, J. of Atm. Sc, vol.44, pp.1049-1061, 1987.

F. Hourdin, F. Couvreux, and L. Menut, Parameterization of the Dry Convective Boundary Layer Based on a Mass Flux Representation of Thermals, Journal of Atmospheric Sciences, vol.59, p.132, 2002.

F. Hourdin, J. Grandpeix, C. Rio, S. Bony, A. Jam et al., LMDZ5B : the atmospheric component of the IPSL climate model with revisited parameterizations for clouds and convection, Climate Dynamics, vol.40, pp.2193-2222, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01098866

F. Hourdin, P. Le-van, F. Forget, and O. Talagrand, Meteorological Variability and the Annual Surface Pressure Cycle on Mars, Journal of Atmospheric Sciences, vol.50, p.44, 1993.

F. Hourdin, P. Levan, O. Talagrand, R. Courtin, D. Gautier et al., Numerical simulation of the circulation of the atmosphere of Titan, editor, Symposium on Titan, vol.338, p.44, 1992.

R. Hueso, J. Peralta, I. Garate-lopez, T. V. Bandos, and A. Sánchez-lavega, Six years of Venus winds at the upper cloud level from UV, visible and near infrared observations from VIRTIS on Venus Express, Plan. and Sp. Sci, vol.113, pp.78-99, 2015.

R. Hueso, J. Peralta, and A. Sánchez-lavega, Assessing the long-term variability of Venus winds at cloud level from VIRTIS-Venus Express, Icarus, vol.217, p.69, 2012.

M. Huggins and W. A. Miller, On the spectra of some if the fixed stars, Philosophical Transactions of the Royal Society of London, pp.413-435, 1861.

O. I. Iakovlev, S. S. Matiugov, and V. N. Gubenko, Venera-15 and -16 middle atmosphere profiles from radio occultations -Polar and near-polar atmosphere of Venus, Icarus, vol.94, pp.493-510, 1991.

N. I. Ignatiev, D. V. Titov, G. Piccioni, P. Drossart, W. J. Markiewicz et al., Altimetry of the Venus cloud tops from the Venus Express observations, Journal of Geophysical Research, p.32, 2009.

T. Imamura, H. Ando, S. Tellmann, M. Pätzold, B. Häusler et al., Initial performance of the radio occultation experiment in the Venus orbiter mission Akatsuki, Earth, Planets, and Space, vol.69, p.137, 2017.

T. Imamura, T. Higuchi, Y. Maejima, M. Takagi, N. Sugimoto et al., Inverse insolation dependence of Venus' cloud-level convection, Icarus, vol.228, pp.181-188, 2014.

A. P. Ingersoll, V. Adumitroaie, M. D. Allison, S. Atreya, A. A. Bellotti et al., Implications of the ammonia distribution on Jupiter from 1 to 100 bars as measured by the Juno microwave radiometer, Geophysical Research Letters, vol.44, pp.7676-7685, 2017.

J. M. Jenkins, P. G. Steffes, D. P. Hinson, J. D. Twicken, and G. L. Tyler, Radio occultation studies of the Venus atmosphere with the Magellan spacecraft. 2 : Results from the October 1991 experiments, Icarus, vol.110, p.27, 1994.

K. L. Jessup, E. Marcq, F. Mills, A. Mahieux, S. Limaye et al., Coordinated Hubble Space Telescope and Venus Express Observations of Venus' upper cloud deck, Icarus, vol.258, pp.309-336, 2015.
URL : https://hal.archives-ouvertes.fr/insu-01164292

V. Jewtoukoff, A. Hertzog, R. Plougonven, A. Cámara, and F. Lott, Comparison of Gravity Waves in the Southern Hemisphere Derived from Balloon Observations and the ECMWF Analyses, Journal of Atmospheric Sciences, vol.72, p.107, 2015.

Q. Jiang and J. D. Doyle, Gravity Wave Breaking over the Central Alps : Role of Complex Terrain, Journal of Atmospheric Sciences, vol.61, pp.2249-2266, 2004.

D. E. Johnson, W. Tao, J. Simpson, and C. Sui, A Study of the Response of Deep Tropical Clouds to Large-Scale Thermodynamic Forcings. Part I : Modeling Strategies and Simulations of TOGA COARE Convective Systems, Journal of Atmospheric Sciences, vol.59, pp.3492-3518, 2002.

A. Kageyama and T. Sato, Yin-Yang grid" : An overset grid in spherical geometry, Geophysics, Geosystems, vol.5, p.9005, 2004.

E. Kalnay-de-rivas, Further numerical calculations of the circulation of the atmosphere of Venus, Journal of Atmospheric Sciences, vol.32, p.41, 1975.

K. Kawabata, D. L. Coffeen, J. E. Hansen, W. A. Lane, M. Sato et al., Cloud and haze properties from Pioneer Venus polarimetry, Journal of Geophysical Research, vol.85, p.32, 1980.

N. M. Bibliographie-kerandi, P. Laux, J. Arnault, and H. Kunstmann, Performance of the WRF model to simulate the seasonal and interannual variability of hydrometeorological variables in East Africa : a case study for the Tana River basin in Kenya, Theoretical and Applied Climatology, vol.130, pp.401-418, 2017.

V. V. Kerzhanovich, Y. N. Aleksandrov, R. A. Andreev, N. A. Armand, R. V. Bakitko et al., Smallscale Turbulence in the Venus Middle Cloud Layer, Soviet Astronomy Letters, vol.12, pp.20-22, 1986.

A. Khain, B. Lynn, and J. Shpund, High resolution WRF simulations of Hurricane Irene : Sensitivity to aerosols and choice of microphysical schemes, Atmospheric Research, vol.167, pp.129-145, 2016.

I. V. Khatuntsev, M. V. Patsaeva, D. V. Titov, N. I. Ignatiev, A. V. Turin et al., Cloud level winds from the Venus Express Monitoring Camera imaging, Icarus, vol.226, p.69, 2013.

J. B. Klemp and D. K. Lilly, Numerical Simulation of Hydrostatic Mountain Waves, Journal of Atmospheric Sciences, vol.35, pp.78-107, 1978.

A. J. Kliore and I. R. Patel, Vertical structure of the atmosphere of Venus from Pioneer Venus orbiter radio occultations, Journal of Geophysical Research, vol.85, pp.7957-7962, 1980.

R. G. Knollenberg and D. M. Hunten, Clouds of Venus -A preliminary assessment of microstructure, Science, vol.205, p.31, 1979.

R. G. Knollenberg and D. M. Hunten, The microphysics of the clouds of Venus -Results of the Pioneer Venus particle size spectrometer experiment, Journal of Geophysical Research, vol.85, pp.8039-8058, 1980.

R. K. Kopparapu, E. T. Wolf, J. Haqq-misra, J. Yang, J. F. Kasting et al., The Inner Edge of the Habitable Zone for Synchronously Rotating Planets around Low-mass Stars Using General Circulation Models, The Astrophysical Journal, vol.819, p.84, 2016.

V. Kostov and D. Apai, Mapping Directly Imaged Giant Exoplanets, The Astrophysical Journal, vol.762, p.47, 2013.

T. Kouyama, T. Imamura, M. Nakamura, T. Satoh, and Y. Futaana, Long-term variation in the cloud-tracked zonal velocities at the cloud top of Venus deduced from Venus Express VMC images, Journal of Geophysical Research (Planets), vol.118, pp.37-46, 2013.

T. Kouyama, T. Imamura, M. Taguchi, T. Fukuhara, T. M. Sato et al., , 2017.

, Geophysical Research Letters, vol.44, p.12

V. A. Krasnopolsky, Chemical composition of Venus clouds, Planetary and Space Science, vol.33, pp.109-117, 1985.

V. A. Krasnopolsky, Photochemistry of the Atmospheres of Mars and Venus. Physics and Chemistry in Space, vol.13, 1986.

V. A. Krasnopolsky, Chemical composition of Venus atmosphere and clouds : Some unsolved problems, Planetary and Space Science, vol.54, pp.1352-1359, 2006.

V. A. Krasnopolsky, Spatially-resolved high-resolution spectroscopy of Venus 2. Variations of HDO, OCS, and SO 2 at the cloud tops, Icarus, vol.209, pp.314-322, 2010.

V. A. Krasnopolsky, A photochemical model for the Venus atmosphere at 47-112 km, Icarus, vol.218, pp.230-246, 2012.

V. A. Krasnopolsky, S3 and s4 abundances and improved chemical kinetic model for the lower atmosphere of venus, Icarus, vol.225, issue.1, pp.570-580, 2013.

R. Laprise, The Euler Equations of Motion with Hydrostatic Pressure as an Independent Variable, Monthly Weather Review, vol.120, p.197, 1992.

S. Lebonnois, J. Burgalat, P. Rannou, and B. Charnay, Titan global climate model : A new 3-dimensional version of the IPSL Titan GCM, Icarus, vol.218, pp.707-722, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00752340

S. Lebonnois, V. Eymet, C. Lee, and J. Vatant-d'ollone, Analysis of the radiative budget of the Venusian atmosphere based on infrared Net Exchange Rate formalism, J. of Geophys. Res. (Planets), vol.120, pp.1186-1200, 2015.

S. Lebonnois, F. Hourdin, V. Eymet, A. Crespin, R. Fournier et al., Superrotation of Venus' atmosphere analyzed with a full general circulation model, J. of Geophys. Res. (Planets), vol.115, p.6006, 2010.

S. Lebonnois, C. Lee, M. Yamamoto, J. Dawson, S. R. Lewis et al., Models of Venus Atmosphere, p.129, 2013.

S. Lebonnois and G. Schubert, The deep atmosphere of Venus and the possible role of density-driven separation of CO 2 and N 2, Nature Geoscience, p.99, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01635402

S. Lebonnois, G. Schubert, F. Forget, and A. Spiga, Planetary Boundary Layer and Slope Winds on Venus, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01923363

S. Lebonnois, N. Sugimoto, G. , and G. , Wave analysis in the atmosphere of Venus below 100-km altitude, simulated by the LMD Venus GCM, Icarus, vol.278, pp.38-51, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01332089

J. Leconte, F. Forget, B. Charnay, R. Wordsworth, F. Selsis et al., 3D climate modeling of close-in land planets : Circulation patterns, climate moist bistability, and habitability, Astronomy and Astrophysics, vol.554, p.124, 2013.
URL : https://hal.archives-ouvertes.fr/hal-00839218

C. Lee, S. R. Lewis, and P. L. Read, A bulk cloud parameterization in a Venus General Circulation Model, Icarus, vol.206, p.42, 2010.

C. Lee and M. I. Richardson, A general circulation model ensemble study of the atmospheric circulation of Venus, Journal of Geophysical Research (Planets), vol.115, p.4002, 2010.

C. Lee and M. I. Richardson, A Discrete Ordinate, Multiple Scattering, Radiative Transfer Model of the Venus Atmosphere from 0.1 to 260µm, Journal of Atmospheric Sciences, vol.68, pp.1323-1339, 2011.

Y. J. Lee, T. Imamura, S. E. Schröder, and E. Marcq, Long-term variations of the UV contrast on Venus observed by the Venus Monitoring Camera on board Venus Express, Icarus, vol.253, p.33, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01120200

M. Lefèvre, S. Lebonnois, and A. Spiga, Three-dimensional turbulence-resolving modeling of the Venusian cloud layer and induced gravity waves. Inclusion of complete radiative transfer and wind shear. sumbitted to, Journal of Geophysical Research (Planets), 2018.

M. Lefèvre, A. Spiga, and S. Lebonnois, Three-dimensional turbulence-resolving modeling of the Venusian cloud layer and induced gravity waves, Journal of Geophysical Research (Planets), vol.122, pp.134-149, 2017.

C. B. Leovy, Rotation of the upper atmosphere of Venus, Journal of Atmospheric Sciences, vol.30, p.14, 1973.

S. S. Leroy and A. P. Ingersoll, Convective Generation of Gravity Waves in Venus's Atmosphere : Gravity Wave Spectrum and Momentum Transport, Journal of Atmospheric Sciences, vol.52, pp.3717-3737, 1995.

B. W. Lew, D. Apai, Y. Zhou, G. Schneider, A. J. Burgasser et al., Cloud Atlas : Discovery of Patchy Clouds and High-amplitude Rotational Modulations in a Young, Extremely Red L-type Brown Dwarf, The Astrophysical Journal Letters, vol.829, p.32, 2016.

C. Li and A. P. Ingersoll, Moist convection in hydrogen atmospheres and the frequency of Saturn giant storms, Nature Geoscience, vol.8, pp.398-403, 2015.

D. K. Lilly, On the numerical simulation of buoyant convection, Tellus, vol.14, issue.2, pp.148-172, 1962.

S. S. Limaye, R. Mogul, D. J. Smith, A. H. Ansari, G. P. Såowik et al., , 2018.

, Venus' spectral signatures and the potential for life in the clouds, Astrobiology, vol.18

V. M. Linkin, J. Blamont, S. I. Deviatkin, S. P. Ignatova, and V. V. Kerzhanovich, Thermal structure of the Venus atmosphere according to measurements with the Vega-2 lander. Kosmicheskie Issledovaniia, vol.25, p.12, 1987.

V. M. Linkin, J. E. Blamont, A. N. Lipatov, S. I. Devyatkin, A. V. Dyachkov et al., Vertical Thermal Structure in the Venus Atmosphere from Provisional VEGA-2 Temperature and Pressure Data, Soviet Astronomy Letters, vol.12, pp.40-42, 1986.

V. M. Linkin, V. V. Kerzhanovich, A. N. Lipatov, K. M. Pichkadze, A. A. Shurupov et al., VEGA balloon dynamics and vertical winds in the Venus middle cloud region, Science, vol.231, pp.1417-1419, 1986.

M. V. Lomonosov, Yavlenie Venery na Solntse, nablyudennoe v Sankt-Peterburgskoi Imperatorskoi Akademii nauk maiya 26 dnya 1761 goda (The appearance of Venus on the Sun, observed at Saint-Petersburg Imperial Academy of Sciences on the 26th May, 1761), 1761.

F. Lott, Linear mountain drag and averaged pseudo-momentum flux profiles in the presence of trapped lee waves, Tellus Series A, vol.50, p.26, 1998.

F. Lott and L. Guez, A stochastic parameterization of the gravity waves due to convection and its impact on the equatorial stratosphere, Journal of Geophysical Research (Atmospheres), vol.118, pp.8897-8909, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01089503

F. Lott, L. Guez, M. , and P. , A stochastic parameterization of non-orographic gravity waves : Formalism and impact on the equatorial stratosphere, Geophysical Research Letters, vol.39, p.93, 2012.
URL : https://hal.archives-ouvertes.fr/hal-01109268

F. Lott and M. J. Miller, A new subgrid-scale orographic drag parametrization : Its formulation and testing, Quarterly Journal of the Royal Meteorological Society, vol.123, pp.101-127, 1997.

H. Ludwig, F. Allard, and P. H. Hauschildt, Numerical simulations of surface convection in a late M-dwarf, Astronomy and Astrophysics, vol.395, pp.99-115, 2002.

D. Luz, D. L. Berry, G. Piccioni, P. Drossart, R. Politi et al., Venus's Southern Polar Vortex Reveals Precessing Circulation, Science, vol.332, p.16, 2011.

J. A. Magalhães, J. T. Schofield, and A. Seiff, Results of the Mars Pathfinder atmospheric structure investigation, Journal of Geophysical Research, vol.104, pp.8943-8956, 1999.

A. Mahieux, A. C. Vandaele, S. Robert, V. Wilquet, R. Drummond et al., Venus mesospheric sulfur dioxide measurement retrieved from SOIR on board Venus Express, Planetary and Space Science, vol.113, p.34, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01096377

P. Manneville, RayleighâBenard Convection : Thirty Years of Experimental,Theoretical, and Modeling Work, Dynamics of Spatio-Temporal Cellular Structures. Henri Benard Centenary Review, pp.47-72, 2006.

E. Marcq, J. Bertaux, F. Montmessin, and D. Belyaev, Variations of sulphur dioxide at the cloud top of Venus's dynamic atmosphere, Nature Geoscience, vol.6, p.34, 2013.

E. Marcq, B. Bézard, P. Drossart, G. Piccioni, J. M. Reess et al., A latitudinal survey of CO, OCS, H 2 O, and SO 2 in the lower atmosphere of Venus : Spectroscopic studies using VIRTIS-H, Journal of Geophysical Research, p.34, 2008.
URL : https://hal.archives-ouvertes.fr/hal-00744928

E. Marcq, T. Encrenaz, B. Bézard, and M. Birlan, Remote sensing of Venus' lower atmosphere from ground-based IR spectroscopy : Latitudinal and vertical distribution of minor species, Planetary and Space Science, vol.54, p.35, 2006.

E. Marcq, F. P. Mills, C. D. Parkinson, and A. C. Vandaele, Composition and Chemistry of the Neutral Atmosphere of Venus, Space Science Reviews, vol.214, issue.10, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01120914

W. J. Markiewicz, D. V. Titov, S. S. Limaye, H. U. Keller, N. Ignatiev et al., Morphology and dynamics of the upper cloud layer of Venus, Nature, vol.450, pp.633-636, 2007.

A. Marten, D. Gautier, T. Owen, D. B. Sanders, H. E. Matthews et al., First observations of CO and HCN on Neptune and Uranus at millimeter wavelengths and the implications for atmospheric chemistry, Astrophysical Journal, vol.406, pp.285-297, 1993.

F. Martin, Venus and the Dresden Codex Eclipse Table, Journal for the History of Astronomy Supplement, vol.26, p.57, 1995.

P. J. Mason and R. I. Sykes, A two-dimensional numerical study of horizontal roll vortices in an inversion capped planetary boundary layer, Quarterly Journal of the Royal Meteorological Society, vol.108, pp.801-823, 1982.

S. Matsumoto, A note on geostrophic adjustment and gravity wave in the atmosphere, Journal of the Meteorological Society of Japan. Ser, vol.II, issue.1, pp.18-28, 1961.

C. H. Mayer, T. P. Mccullough, and R. M. Sloanaker, Observations of Venus at 3.15-CM Wave Length, Astrophysical Journal, vol.127, issue.1, 1958.

H. G. Mayr and I. Harris, Quasi-axisymmetric circulation and superrotation in planetary atmospheres, Astronomy and Astrophysics, vol.121, p.41, 1983.

G. D. Mcdonald, A. G. Hayes, R. C. Ewing, J. M. Lora, C. E. Newman et al., Variations in Titan's dune orientations as a result of orbital forcing, Icarus, vol.270, pp.197-210, 2016.

K. Mcgouldrick and O. B. Toon, Observable effects of convection and gravity waves on the Venus condensational cloud, Plan. and Sp. Sci, vol.56, pp.1112-1131, 2008.

C. Mclandress, M. J. Alexander, and D. L. Wu, Microwave Limb Sounder observations of gravity waves in the stratosphere : A climatology and interpretation, Journal of Geophysical Research : Atmospheres, vol.105, p.27, 2000.

G. L. Mellor and T. Yamada, Development of a turbulence closure model for geophysical fluid problems, Reviews of Geophysics and Space Physics, vol.20, pp.851-875, 1982.

J. M. Mendonça and P. L. Read, Exploring the Venus global super-rotation using a comprehensive general circulation model, Planetary and Space Science, vol.134, p.41, 2016.

J. M. Mendonça, P. L. Read, C. F. Wilson, and C. Lee, A new, fast and flexible radiative transfer method for Venus general circulation models, Planetary and Space Science, vol.105, p.41, 2015.

F. P. Mills and M. Allen, A review of selected issues concerning the chemistry in Venus' middle atmosphere, Planetary and Space Science, vol.55, pp.1729-1740, 2007.

C. Moeng, J. Dudhia, J. Klemp, and P. Sullivan, Examining Two-Way Grid Nesting for Large Eddy Simulation of the PBL Using the WRF Model, Monthly Weather Review, vol.135, issue.6, pp.2295-2311, 2007.

V. I. Moroz, A. P. Ekonomov, B. E. Moshkin, H. E. Revercomb, L. A. Sromovsky et al., Solar and thermal radiation in the Venus atmosphere, Advances in Space Research, vol.5, pp.197-232, 1985.

N. T. Mueller, J. Helbert, S. Erard, G. Piccioni, and P. Drossart, Rotation period of Venus estimated from Venus Express VIRTIS images and Magellan altimetry, Icarus, vol.217, p.34, 2012.
URL : https://hal.archives-ouvertes.fr/hal-02883686

B. C. Murray, M. J. Belton, G. E. Danielson, M. E. Davies, D. Gault et al., Venus : Atmospheric Motion and Structure from Mariner 10 Pictures, vol.183, pp.1307-1315, 1974.

M. Nakamura, T. Imamura, N. Ishii, T. Abe, T. Satoh et al., Overview of Venus orbiter, Akatsuki. Earth, Planets, and Space, vol.63, pp.443-457, 2011.

G. D. Nastrom, D. C. Fritts, and K. S. Gage, An Investigation of Terrain Effects on the Mesoscale Spectrum of Atmospheric Motions, Journal of Atmospheric Sciences, vol.44, p.23, 1987.

T. Navarro, G. Schubert, and S. Lebonnois, Atmospheric mountain wave generation on Venus and its influence on the solid planetâs rotation rate, Nature Geoscience, pp.1752-0908, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01923380

M. Newman and C. Leovy, Maintenance of strong rotational winds in Venus' middle atmosphere by thermal tides, Science, vol.257, p.14, 1992.

W. Ohfuchi, H. Nakamura, M. K. Yoshioka, K. Enomoto, K. Takaya et al., 10-km Mesh Meso-scale Resolving Simulations of the Global Atmosphere on the Earth Simulator â Preliminary Outcomes of AFES (AGCM for the Earth Simulator), Journal of the Earth Simulator, vol.1, p.41, 2004.

C. D. Parkinson, P. Gao, L. Esposito, Y. Yung, S. Bougher et al., Photochemical control of the distribution of Venusian water, Planetary and Space Science, vol.113, p.35, 2015.
URL : https://hal.archives-ouvertes.fr/hal-02509301

J. Peralta, R. Hueso, A. Sánchez-lavega, Y. J. Lee, A. G. Muñoz et al., Stationary waves and slowly moving features in the night upper clouds of Venus, Nature Astronomy, p.29, 2017.

J. Peralta, R. Hueso, A. Sánchez-lavega, G. Piccioni, O. Lanciano et al., Characterization of mesoscale gravity waves in the upper and lower clouds of Venus from VEX-VIRTIS images, J. of Geophys. Res. (Planets), vol.113, 2008.

J. Peralta, T. Imamura, P. L. Read, D. Luz, A. Piccialli et al., Analytical Solution for Waves in Planets with Atmospheric Superrotation. I. Acoustic and Inertia-Gravity Waves, The Astrophysical Journal Supplement Series, vol.213, p.17, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01023605

J. Peralta, A. Sánchez-lavega, M. A. López-valverde, D. Luz, and P. Machado, Venus's major cloud feature as an equatorially trapped wave distorted by the wind, Geophysical Research Letters, vol.42, p.16, 2015.

S. Pérez-hoyos, A. Sánchez-lavega, A. García-muñoz, P. G. Irwin, J. Peralta et al., Venus Upper Clouds and the UV Absorber From MESSENGER/MASCS Observations, Journal of Geophysical Research (Planets), vol.123, p.33, 2018.

M. J. Person, J. L. Elliot, A. A. Gulbis, C. A. Zuluaga, B. A. Babcock et al., Waves in Pluto's Upper Atmosphere, The Astronomical Journal, vol.136, pp.1510-1518, 2008.

G. H. Pettengill, E. Eliason, P. G. Ford, G. B. Loriot, H. Masursky et al., , 1980.

, Pioneer Venus radar results -Altimetry and surface properties, Journal of Geophysical Research, vol.85, pp.8261-8270

C. Piani, D. Durran, M. J. Alexander, and J. R. Holton, A Numerical Study of Three-Dimensional Gravity Waves Triggered by Deep Tropical Convection and Their Role in the Dynamics of the QBO, Journal of Atmospheric Sciences, vol.57, p.27, 2000.

A. Piccialli, D. V. Titov, A. Sánchez-lavega, J. Peralta, O. Shalygina et al., High latitude gravity waves at the Venus cloud tops as observed by the Venus Monitoring Camera on board Venus Express, Icarus, vol.227, pp.94-111, 2014.
URL : https://hal.archives-ouvertes.fr/hal-00876202

G. Piccioni, P. Drossart, A. Sanchez-lavega, R. Hueso, F. W. Taylor et al., , vol.450, p.16, 2007.

J. B. Pollack, O. B. Toon, and R. Boese, Greenhouse models of Venus' high surface temperature, as constrained by Pioneer Venus measurements, Journal of Geophysical Research, vol.85, pp.8223-8231, 1980.

P. Preusse, S. D. Eckermann, M. Ern, J. Oberheide, R. H. Picard et al., Global ray tracing simulations of the SABER gravity wave climatology, Journal of Geophysical Research (Atmospheres), vol.114, p.8126, 2009.

M. Pulido, C. Rodas, D. Dechat, and M. M. Lucini, High gravity-wave activity observed in Patagonia, Southern America : generation by a cyclone passage over the Andes mountain range, Quarterly Journal of the Royal Meteorological Society, vol.139, p.25, 2013.

P. Queney, Theory of perturbation in stratified currents with applications to airflow over mountain barriers. Misc. Rep, 23, 1947.

J. Radigan, D. Lafrenière, R. Jayawardhana, and E. Artigau, Strong Brightness Variations Signal Cloudy-to-clear Transition of Brown Dwarfs, The Astrophysical Journal, vol.793, p.75, 2014.

S. C. Rafkin and E. L. Barth, Environmental control of deep convective clouds on Titan : The combined effect of CAPE and wind shear on storm dynamics, morphology, and lifetime, Journal of Geophysical Research (Planets), vol.120, p.136, 2015.

S. Rodriguez, A. Garcia, A. Lucas, T. Appéré, A. Le-gall et al., Global mapping and characterization of Titan's dune fields with Cassini : Correlation between RADAR and VIMS observations, Icarus, vol.230, pp.168-179, 2014.

F. E. Ross, Photographs of Venus, Astrophysical Journal, vol.68, p.57, 1928.

L. Rossi, Ãtude des nuages de Vénus par polarimétrie avec les données de lâinstrument SPICAV-IR à bord de Venus Express, Franck et Marcq, Emmanuel Astronomie et Astrophysique Versailles-St Quentin en Yvelines, p.32, 2015.

L. Rossi, E. Marcq, F. Montmessin, A. Fedorova, D. Stam et al., Preliminary study of Venus cloud layers with polarimetric data from SPICAV/VEx, Planetary and Space Science, vol.113, p.31, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01088173

L. Rossi and D. M. Stam, Circular polarization signals of cloudy (exo)planets. ArXiv e-prints, p.119, 2018.

W. B. Rossow, A. D. Del-genio, and T. Eichler, Cloud-tracked winds from Pioneer Venus OCPP images, Journal of Atmospheric Sciences, vol.47, pp.2053-2084, 1990.

W. B. Rossow, A. D. Del-genio, S. S. Limaye, and L. D. Travis, Cloud morphology and motions from Pioneer Venus images, Journal of Geophysical Research, vol.85, pp.8107-8128, 1980.

W. B. Rossow and G. P. Williams, Large-scale motion in the Venus stratosphere, Journal of Atmospheric Sciences, vol.36, p.14, 1979.

R. Sadourny and K. Laval, January and July performance of the LMD General Circulation Model, New perspectives in Climate Modeling, 1984.

R. Z. Bibliographie-sagdeev, V. M. Linkin, V. V. Kerzhanovich, A. N. Lipatov, A. A. Shurupov et al., Overview of VEGA Venus balloon in situ meteorological measurements, Science, vol.231, pp.1411-1414, 1986.

R. Z. Sagdeev, V. M. Linkin, A. N. Lipatov, K. M. Pichkadze, A. A. Shurupov et al., The VEGA Venus Balloon Experiment, Science, vol.231, p.1408, 1986.

R. Z. Sagdeyev, V. V. Kerzhanovitch, L. R. Kogan, V. I. Kostenko, V. M. Linkin et al., Differential VLBI Measurements of the Venus Atmosphere Dynamics by Balloons -VEGA Project, Astronomy and Astrophysics, vol.254, p.76, 1992.

A. Sánchez-lavega, , pp.484-564, 2010.

A. Sánchez-lavega, T. Del-río-gaztelurrutia, R. Hueso, J. M. Gómez-forrellad, J. F. Sanz-requena et al., Deep winds beneath Saturn's upper clouds from a seasonal long-lived planetary-scale storm, Nature, vol.475, pp.71-74, 2011.

A. Sánchez-lavega, R. Hueso, G. Piccioni, P. Drossart, J. Peralta et al., Variable winds on Venus mapped in three dimensions, Geophysical Research Letters, vol.35, p.13204, 2008.

A. Sánchez-lavega, S. Lebonnois, T. Imamura, P. Read, L. et al., The Atmospheric Dynamics of Venus, Space Science Review, vol.212, pp.1541-1616, 2017.

B. J. Sandor, T. Clancy, R. Moriarty-schieven, G. Mills, and F. P. , Sulfur chemistry in the Venus mesosphere from SO 2 and SO microwave spectra, Icarus, vol.208, p.34, 2010.

K. Sato, Vertical wind disturbances in the afternoon of mid-summer revealed by the MU radar, Geophysical Research Letters, vol.19, p.26, 1992.

T. Satoh, T. M. Sato, M. Nakamura, Y. Kasaba, M. Ueno et al., Performance of Akatsuki, 2017.

G. G. Schaber, R. G. Strom, H. J. Moore, L. A. Soderblom, R. L. Kirk et al., Geology and distribution of impact craters on Venus -What are they telling us, Journal of Geophysical Research, vol.97, issue.13, 1992.

G. Schiaparelli, La Planète Vénus. L'Astronomie, vol.9, pp.411-423, 1890.

J. T. Schofield and F. W. Taylor, Measurements of the mean, solar-fixed temperature and cloud structure of the middle atmosphere of Venus, Quarterly Journal of the Royal Meteorological Society, vol.109, p.15, 1983.

G. Schubert, C. Covey, A. Del-genio, L. S. Elson, G. Keating et al., Structure and circulation of the Venus atmosphere, Journal of Geophysical Research, vol.85, pp.8007-8025, 1980.

G. Schubert and R. L. Walterscheid, Propagation of small-scale acoustic-gravity waves in the Venus atmosphere, Journal of Atmospheric Sciences, vol.41, pp.1202-1213, 1984.

R. S. Scorer, Theory of waves in the lee of mountains, Quarterly Journal of the Royal Meteorological Society, vol.75, p.26, 1949.

A. Seiff, D. B. Kirk, R. E. Young, R. C. Blanchard, J. T. Findlay et al., Measurements of thermal structure and thermal contrasts in the atmosphere of Venus and related dynamical observations -Results from the four Pioneer Venus probes, Journal of Geophysical Research, vol.85, pp.7903-7933, 1980.

A. Seiff, J. T. Schofield, A. J. Kliore, F. W. Taylor, and S. S. Limaye, Models of the structure of the atmosphere of Venus from the surface to 100 kilometers altitude, Advances in Space Research, vol.5, pp.3-58, 1985.

F. Selsis, J. F. Kasting, B. Levrard, J. Paillet, I. Ribas et al., Habitable planets around the star Gliese 581 ?, Astronomy and Astrophysics, vol.476, p.123, 2007.

E. V. Shalygin, W. J. Markiewicz, A. T. Basilevsky, D. V. Titov, N. I. Ignatiev et al., Active volcanism on Venus in the Ganiki Chasma rift zone, Geophysical Research Letters, vol.42, p.134, 2015.

A. P. Showman, J. Y. Cho, .. Menou, and K. , Atmospheric Circulation of Exoplanets, p.134, 2010.

W. C. Skamarock and J. B. Klemp, A time-split nonhydrostatic atmospheric model for weather research and forecasting applications, Journal of Computational Physics, vol.227, pp.3465-3485, 2008.

W. C. Skamarock, J. B. Klemp, J. Dudhia, D. O. Gill, D. M. Barker et al., A Description of th e Advanced Research WRF Version 3, NCAR Thechnical note, p.459, 2008.

R. B. Smith, The Influence of Mountains on the Atmosphere, Advances in Geophysics, vol.21, pp.87-230, 1979.

S. E. Bibliographie-smrekar, L. Elkins-tanton, J. J. Leitner, A. Lenardic, S. Mackwell et al., Tectonic and thermal evolution of Venus and the role of volatiles : Implications for understanding the terrestrial planets, Washington DC American Geophysical Union Geophysical Monograph Series, vol.176, p.31, 2007.

S. E. Smrekar, E. R. Stofan, N. Mueller, A. Treiman, L. Elkins-tanton et al., Recent Hotspot Volcanism on Venus from VIRTIS Emissivity Data, Science, vol.328, p.31, 2010.

J. J. Spake, D. K. Sing, T. M. Evans, A. Oklop?i?, V. Bourrier et al., , 2018.

A. Spiga, E. Barth, Z. Gu, F. Hoffmann, J. Ito et al., Large-Eddy Simulations of Dust Devils and Convective Vortices, Space Science Reviews, vol.203, p.81, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01457992

A. Spiga and F. Forget, A new model to simulate the Martian mesoscale and microscale atmospheric circulation : Validation and first results, J. of Geophys. Res. (Planets), vol.114, 2009.

A. Spiga, F. Forget, S. R. Lewis, and D. P. Hinson, Structure and dynamics of the convective boundary layer on mars as inferred from large-eddy simulations and remote-sensing measurements, Quarterly Journal of the Royal Meteorological Society, vol.136, pp.414-428, 2010.
URL : https://hal.archives-ouvertes.fr/hal-01139698

A. Spiga, D. P. Hinson, J. Madeleine, T. Navarro, E. Millour et al., Snow precipitation on Mars driven by cloud-induced night-time convection, Nature Geoscience, vol.10, pp.652-657, 2017.
URL : https://hal.archives-ouvertes.fr/insu-01640088

S. A. Stern, F. Bagenal, K. Ennico, G. R. Gladstone, W. M. Grundy et al., The Pluto system : Initial results from its exploration by New Horizons. Science, vol.350, p.1815, 2015.

A. Stolzenbach, Ãtude de la photochimie de Vénus à l'aide d'un modèle de circulation générale, Franck Sciences Planétaires, p.132, 2016.

N. Sugimoto, M. Takagi, and Y. Matsuda, Baroclinic instability in the Venus atmosphere simulated by GCM, Journal of Geophysical Research (Planets), vol.119, p.41, 2014.

N. Sugimoto, M. Takagi, and Y. Matsuda, Waves in a Venus general circulation model, Geophysical Research Letters, vol.41, p.41, 2014.

K. Sugiyama, K. Nakajima, M. Odaka, K. Kuramoto, and Y. Hayashi, Numerical simulations of Jupiter moist convection layer : Structure and dynamics in statistically steady states, Icarus, vol.229, p.135, 2014.

P. P. Sullivan and E. G. Patton, The Effect of Mesh Resolution on Convective Boundary Layer Statistics and Structures Generated by Large-Eddy Simulation, Journal of Atmospheric Sciences, vol.68, pp.2395-2415, 2011.

H. Svedhem, D. Titov, F. Taylor, and O. Witasse, Venus Express mission, Journal of Geophysical Research (Planets), vol.114, pp.0-33, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00186339

H. Svedhem, D. V. Titov, D. Mccoy, J. Lebreton, S. Barabash et al., , 2007.

, Venus Express -The first European mission to Venus. Planetary and Space Sience, vol.55, pp.1636-1652

M. R. Swain, G. Vasisht, and G. Tinetti, The presence of methane in the atmosphere of an extrasolar planet, Nature, vol.452, p.119, 2008.

M. R. Swain, G. Vasisht, G. Tinetti, J. Bouwman, P. Chen et al., Molecular Signatures in the Near-Infrared Dayside Spectrum of HD 189733b, The Astrophysical Journal Letters, vol.690, p.119, 2009.

M. Takagi and Y. Matsuda, Effects of thermal tides on the Venus atmospheric superrotation, Journal of Geophysical Research (Atmospheres), vol.112, p.14, 2007.

M. Takagi, N. Sugimoto, H. Ando, and Y. Matsuda, Three-Dimensional Structures of Thermal Tides Simulated by a Venus GCM, Journal of Geophysical Research (Planets), vol.123, p.41, 2018.

C. Talbot, E. Bou-zeid, and J. Smith, Nested Mesoscale Large-Eddy Simulations with WRF : Performance in Real Test Cases, Journal of Hydrometeorology, vol.13, pp.1421-1441, 2012.

X. Bibliographie-tan and A. P. Showman, Effects of Latent Heating on Atmospheres of Brown Dwarfs and Directly Imaged Planets, The Astrophysical Journal, vol.835, p.186, 2017.

F. W. Taylor, D. J. Mccleese, and D. J. Diner, Polar clearing in the Venus clouds observed from the Pioneer Orbiter, Nature, vol.279, p.16, 1979.

S. Tellmann, B. Haeusler, M. Paetzold, M. K. Bird, G. L. Tyler et al., The Structure of the Venus Neutral Atmosphere as seen by the Radio Science Experiment VeRa on Venus Express, J. of Geophys. Res. (Planets), vol.114, 2009.

S. Tellmann, B. Häusler, D. P. Hinson, G. L. Tyler, T. P. Andert et al., Small-scale temperature fluctuations seen by the VeRa Radio Science Experiment on Venus Express, Icarus, vol.221, pp.471-480, 2012.

G. Thompson, M. Tewari, K. Ikeda, S. Tessendorf, C. Weeks et al., Explicitly-coupled cloud physics and radiation parameterizations and subsequent evaluation in WRF high-resolution convective forecasts, Atmospheric Research, vol.168, pp.92-104, 2016.

T. S. Timofeeva, O. I. Iakovlev, and A. I. Efimov, Radio-wave fluctuations and turbulence in the nightside atmosphere of Venus from radio-occultation data obtained with the Venera 9 satellite, Kosmicheskie Issledovaniia, vol.16, p.27, 1978.

D. V. Titov, M. A. Bullock, D. Crisp, N. O. Renno, F. W. Taylor et al., Radiation in the atmosphere of Venus, Washington DC American Geophysical Union Geophysical Monograph Series, vol.176, p.12, 2007.

D. V. Titov, W. J. Markiewicz, N. I. Ignatiev, L. Song, S. S. Limaye et al., Morphology of the cloud tops as observed by the Venus Express Monitoring Camera, Icarus, vol.217, pp.682-701, 2012.

D. V. Titov, F. W. Taylor, H. Svedhem, N. I. Ignatiev, W. J. Markiewicz et al., Atmospheric structure and dynamics as the cause of ultraviolet markings in the clouds of Venus, Nature, vol.456, pp.620-623, 2008.

A. Toigo, P. J. Gierasch, and M. D. Smith, High resolution cloud feature tracking on Venus by Galileo, Icarus, vol.109, p.22, 1994.

A. D. Toigo, P. J. Gierasch, B. Sicardy, and E. Lellouch, Thermal tides on Pluto, Icarus, vol.208, pp.402-411, 2010.

A. D. Toigo, D. W. Waugh, and S. D. Guzewich, What causes Mars' annular polar vortices ?, Geophysical Research Letters, vol.44, pp.71-78, 2017.

M. G. Tomasko, P. H. Smith, V. E. Suomi, L. A. Sromovsky, H. E. Revercomb et al., The thermal balance of Venus in light of the Pioneer Venus mission, vol.85, pp.8187-8199, 1980.

O. B. Toon, R. P. Turco, and J. B. Pollack, The ultraviolet absorber on Venus -Amorphous sulfur, Icarus, vol.51, pp.358-373, 1982.

C. Torrence and G. P. Compo, A practical guide to wavelet analysis, Bulletin of the American Meteorological Society, vol.79, pp.61-78, 1998.

M. Turbet, E. Bolmont, J. Leconte, F. Forget, F. Selsis et al., Modeling climate diversity, tidal dynamics and the fate of volatiles on TRAPPIST-1 planets, Astronomy and Astrophysics, vol.612, p.86, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01797175

M. Turbet, F. Forget, J. W. Head, and R. Wordsworth, 3D modelling of the climatic impact of outflow channel formation events on early Mars, Icarus, vol.288, p.135, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01452745

M. Turbet, J. Leconte, F. Selsis, E. Bolmont, F. Forget et al., The habitability of Proxima Centauri b. II. Possible climates and observability, Astronomy and Astrophysics, vol.596, p.112, 2016.
URL : https://hal.archives-ouvertes.fr/hal-01359518

M. Turbo-king, B. R. Tang, Z. Habeertable, M. C. Chouffe, B. Exquisit et al., A revolution is brewing : observations of TRAPPIST-1 exoplanetary system fosters a new biomarker, 2017.

E. P. Turtle, J. E. Perry, A. S. Mcewen, A. D. Del-genio, J. Barbara et al., Cassini imaging of Titan's high-latitude lakes, clouds, and south-polar surface changes, Geophysical Research Letters, vol.36, p.2204, 2009.

P. A. Ullrich, C. Jablonowski, J. Kent, P. H. Lauritzen, R. Nair et al., Geoscientific Model Development, vol.10, pp.4477-4509, 2017.
URL : https://hal.archives-ouvertes.fr/hal-01074227

T. E. Vanzandt and D. C. Fritts, A theory of enhanced saturation of the gravity wave spectrum due to increases in atmospheric stability, Pure and Applied Geophysics, vol.130, issue.2, p.67, 1989.

S. Vinatier, B. Bézard, S. Lebonnois, N. A. Teanby, R. K. Achterberg et al., Seasonal variations in Titan's middle atmosphere during the northern spring derived from Cassini/CIRS observations, Icarus, vol.250, pp.95-115, 2015.
URL : https://hal.archives-ouvertes.fr/hal-01102741

R. A. Vincent and I. M. Reid, HF Doppler measurements of mesospheric gravity wave momentum fluxes, Journal of Atmospheric Sciences, vol.40, pp.1321-1333, 1983.

U. Von-zahn and V. I. Moroz, Composition of the Venus atmosphere below 100 KM altitude, Advances in Space Research, vol.5, pp.173-195, 1985.

S. Wang, A. H. Sobel, and Z. Kuang, Cloud-resolving simulation of TOGA-COARE using parameterized large-scale dynamics, Journal of Geophysical Research (Atmospheres), vol.118, p.126, 2013.

D. W. Waugh, A. H. Sobel, and L. M. Polvani, What Is the Polar Vortex and How Does It Influence Weather ? Bulletin of the, vol.98, p.15, 2017.

. Bibliographie,

P. J. Webster and R. Lukas, TOGA COARE : The Coupled Ocean-Atmosphere Response Experiment, Bulletin of the American Meteorological Society, vol.73, p.126, 1992.

L. J. Wicker and W. C. Skamarock, Time-Splitting Methods for Elastic Models Using Forward Time Schemes, Monthly Weather Review, vol.130, p.49, 2002.

R. Wildt, Note on the Surface Temperature of Venus, Astrophysical Journal, vol.91, pp.266-268, 1940.

V. Wilquet, A. Fedorova, F. Montmessin, R. Drummond, A. Mahieux et al., Preliminary characterization of the upper haze by SPICAV/SOIR solar occultation in UV to mid-IR onboard Venus Express, Journal of Geophysical Research (Planets), vol.114, pp.0-42, 2009.
URL : https://hal.archives-ouvertes.fr/hal-00379299

R. Wilson, M. L. Chanin, and A. Hauchecorne, Gravity waves in the middle atmosphere observed by Rayleigh lidar : 1. Case studies, Journal of Geophysical Research : Atmospheres, vol.96, p.23, 1991.

R. Wilson, M. L. Chanin, and A. Hauchecorne, Gravity waves in the middle atmosphere observed by Rayleigh lidar : 2. Climatology, Journal of Geophysical Research : Atmospheres, vol.96, p.23, 1991.

R. Woo, J. W. Armstrong, and A. Ishimaru, Radio occultation measurements of turbulence in the Venus atmosphere by Pioneer Venus, Journal of Geophysical Research, vol.85, p.22, 1980.

R. D. Wordsworth, F. Forget, F. Selsis, E. Millour, B. Charnay et al., Gliese 581d is the First Discovered Terrestrial-mass Exoplanet in the Habitable Zone, The Astrophysical Journal Letters, vol.733, p.48, 2011.
URL : https://hal.archives-ouvertes.fr/hal-00594171

W. H. Wright, Photographs of Venus made by Infra-red and by Violet Light, Publications of the Astronomical Society of the Pacific, vol.39, p.220, 1927.

J. Xing, R. Mathur, J. Pleim, C. Hogrefe, C. Gan et al., Observations and modeling of air quality trends over 1990-2010 across the Northern Hemisphere : China, the United States and Europe, Atmospheric Chemistry and Physics, vol.15, pp.2723-2747, 2015.

M. Yamamoto, Gravity waves and convection cells resulting from feedback heating of venus lower clouds, Journal of the Meteorological Society of Japan. Ser, vol.II, issue.4, p.42, 2003.

M. Yamamoto, Microscale simulations of Venus convective adjustment and mixing near the surface : Thermal and material transport processes, Icarus, vol.211, pp.993-1006, 2011.

M. Yamamoto, Idealized numerical experiments on microscale eddies in the Venusian cloud layer, Earth, Planets, and Space, vol.66, p.27, 2014.

M. Yamamoto, Probability distribution of surface wind speed induced by convective adjustment on Venus, Icarus, vol.284, pp.314-324, 2017.

M. Yamamoto and M. Takahashi, Venusian middle-atmospheric dynamics in the presence of a strong planetary-scale 5.5-day wave, Icarus, vol.217, p.43, 2012.

M. Yamamoto and H. Tanaka, Formation and Maintenance of the 4-Day Circulation in the Venus Middle Atmosphere, Journal of Atmospheric Sciences, vol.54, pp.1472-1489, 1997.

H. Yang, D. Apai, M. S. Marley, D. Saumon, C. V. Morley et al., HST Rotational Spectral Mapping of Two L-type Brown Dwarfs : Variability in and out of Water Bands indicates High-altitude Haze Layers, The Astrophysical Journal Letters, vol.798, p.13, 2015.

J. Yang, N. B. Cowan, A. , and D. S. , Stabilizing Cloud Feedback Dramatically Expands the Habitable Zone of Tidally Locked Planets, The Astrophysical Journal Letters, vol.771, p.45, 2013.

K. C. Yeh and C. H. Liu, Evolution of atmospheric spectrum by processes of wave-wave interaction, Radio Science, vol.20, pp.1279-1294, 1985.

A. T. Young, Are the Clouds of Venus Sulfuric Acid ?, Icarus, vol.18, p.31, 1973.

L. A. Young, R. V. Yelle, R. Young, A. Seiff, and D. B. Kirk, Gravity waves in Jupiter's thermosphere, Science, vol.276, p.23, 1997.

R. E. Young and J. B. Pollack, A three-dimensional model of dynamical processes in the Venus atmosphere, Journal of Atmospheric Sciences, vol.34, p.41, 1977.

R. E. Young, R. L. Walterscheid, G. Schubert, L. Pfister, H. Houben et al., Characteristics of Finite Amplitude Stationary Gravity Waves in the Atmosphere of Venus, Journal of Atmospheric Sciences, vol.51, p.27, 1994.

R. E. Young, R. L. Walterscheid, G. Schubert, A. Seiff, V. M. Linkin et al., Characteristics of gravity waves generated by surface topography on Venus -Comparison with the VEGA Balloon results, Journal of Atmospheric Sciences, vol.44, pp.2628-2639, 1987.

Y. L. Yung, M. C. Liang, X. Jiang, R. L. Shia, C. Lee et al., Evidence for carbonyl sulfide (OCS) conversion to CO in the lower atmosphere of Venus, Journal of Geophysical Research (Planets), vol.114, pp.0-34, 2009.

L. V. Zasova, N. Ignatiev, I. Khatuntsev, and V. Linkin, Structure of the Venus atmosphere, Cité en pages 15, vol.55, pp.1712-1728, 2007.
URL : https://hal.archives-ouvertes.fr/insu-01511625

M. Zerroukat and T. Allen, On the monotonic and conservative transport on overset/Yin-Yang grids, Journal of Computational Physics, vol.302, pp.285-299, 2015.

X. Zhang, M. C. Liang, F. P. Mills, D. A. Belyaev, Y. et al., Sulfur chemistry in the middle atmosphere of Venus, Icarus, vol.217, p.35, 2012.
URL : https://hal.archives-ouvertes.fr/hal-00609193

X. Zhang, M. Liang, F. Montmessin, J. Bertaux, C. Parkinson et al., Photolysis of sulphuric acid as the source of sulphur oxides in the mesosphere of Venus, Nature Geoscience, vol.3, p.35, 2010.
URL : https://hal.archives-ouvertes.fr/hal-00543196

. Bibliographie,

X. Zhang, F. Tian, Y. Wang, J. Dudhia, C. et al., Surface Variability of Shortwavelength Radiation and Temperature on Exoplanets around M Dwarfs, The Astrophysical Journal Letters, vol.837, p.27, 2017.