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@comment{{This file has been generated by bib2bib 1.95}}
@comment{{Command line: /usr/bin/bib2bib --quiet -c 'not journal:"Discussions"' -c 'not journal:"Polymer Science"' -c '  author:"Sadourny"  ' -c year=1990 -c $type="ARTICLE" -oc lmd_Sadourny1990.txt -ob lmd_Sadourny1990.bib /home/WWW/LMD/public/}}
  author = {{Genthon}, C. and {Le Treut}, H. and {Sadourny}, R. and {Jouzel}, J.
  title = {{Parameterization of eddy sensible heat transports in a zonally averaged dynamic model of the atmosphere.}},
  journal = {Journal of Atmospheric Sciences},
  keywords = {Earth Atmosphere: Dynamics, Earth Atmosphere: Models},
  year = 1990,
  month = nov,
  volume = 47,
  pages = {2475-2487},
  abstract = {{A Charney-Branscome based parameterization has been tested as a way of
representing the eddy sensible heat transports missing in a zonally
averaged dynamic model (ZADM) of the atmosphere. The ZADM used is a
zonally averaged version of a General Circulation Model (GCM). The
parameterized transports in the ZADM are gaged against the corresponding
fluxes explicitly simulated in the GCM, using the same zonally averaged
boundary conditions in both models. The Charney-Branscome approach
neglects stationary eddies and transient barotropic disturbances and
relies on a set of simplifying assumptions, including the linear
approximation, to describe growing transient baroclinic eddies.
Nevertheless, fairly satisfactory results are obtained when the
parameterization is performed interactively with the model. Compared
with noninteractive tests, a very efficient restoring feedback effect
between the modeled zonal-mean climate and the parameterized meridional
eddy transport is identified.
  doi = {10.1175/1520-0469(1990)047<2475:POESHT>2.0.CO;2},
  adsurl = {},
  adsnote = {Provided by the SAO/NASA Astrophysics Data System}
  author = {{Babiano}, A. and {Basdevant}, C. and {Le Roy}, P. and {Sadourny}, R.
  title = {{Relative dispersion in two-dimensional turbulence}},
  journal = {Journal of Fluid Mechanics},
  keywords = {Computational Fluid Dynamics, Incompressible Flow, Turbulence Effects, Two Dimensional Flow, Asymptotic Properties, Differential Equations, Energy Spectra, Velocity Distribution},
  year = 1990,
  month = may,
  volume = 214,
  pages = {535-557},
  abstract = {{The statistical laws governing relative dispersion of particle pairs
advected in a two-dimensional turbulent, incompressible, homogeneous,
and stationary velocity field are examined theoretically and
numerically. A rigorous differential equation governing relative
dispersion is obtained which is based on simple kinematic relations
between relative position, relative velocity, and relative acceleration
of particle views and is valid for both two- and three-dimensional
dynamics. Particular attention is given to the classical Kraichnan-Lin
and Richardson-Obukhov laws in the incompressible two-dimensional case.
  doi = {10.1017/S0022112090000258},
  adsurl = {},
  adsnote = {Provided by the SAO/NASA Astrophysics Data System}
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