Astronomy and Astrophysics – Astrophysics
Scientific paper
Jan 2002
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2002a%26a...382..378m&link_type=abstract
Astronomy and Astrophysics, v.382, p.378-388 (2002)
Astronomy and Astrophysics
Astrophysics
25
Atmospheric Effects, Methods: Numerical, Site Testing, Techniques: Interferometric
Scientific paper
It was recently shown (Masciadri et al. \cite{mas00}; Masciadri \cite{mas01a}), using a numerical simulation (Meso-Nh model), that considering horizontally uniform CN2 can have severe consequences. For example, the integration of the CN2 along lines of sight different from the zenith gives variations that can be larger than 0.50arcsec . In this paper we try to validate this result following two approaches. (a) numerical approach: we compare measured and simulated CN2 profiles. The first ones were obtained with a Generalized Scidar (GS) and the latter are simulated with the Meso-Nh model at the same azimuth and elevation as those of the observations. Further measurements (DIMM, mast and balloons) are considered in order to support the comparison. (b) experimental approach: we compare CN2 profiles measured (almost simultaneously) by a GS along different lines of sight. The results of this study show that (1) the horizontal size of the turbulent layers can be finite, (2) the simulations and the measurements are well correlated and (3) for the first time, we show that the model can reproduce observed seeing values that vary as much as 0.50arcsec during the same night. This definitely shows that the numerical simulations are a useful tool in the context of the turbulence characterization for astronomical applications. Finally, we discuss the implications that a finite horizontal size of the turbulent layers could have on new adaptive optics techniques, particularly in applications to the extremely large size telescopes.
Avila Ricardo
Masciadri Elena
Sánchez Leonardo J.
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