Документ взят из кэша поисковой машины. Адрес оригинального документа : http://www.arcetri.astro.it/~masciadr/public_MNH.html
Дата изменения: Wed Apr 1 15:38:02 2015
Дата индексирования: Sat Apr 9 23:46:41 2016
Кодировка:

Поисковые слова: п п п п п п п п п п п п п п п п р п р п р п р п р п р п р п р п р п р п р п р п
* Mesoscale Atmospheric Models: optical turbulence (CN2) and meteorologic parameters *
Books

Chapter in
a book - Invited Review
Masciadri, E., Optical Turbulence Modeling and Forecasts - Toward a new era for the ground-based astronomy,
Book Title: Seeing Clearly: An Introduction to Atmospheric Optical Turbulence, its Measurement and Mitigation",
Ed. S. Businger & T. Cherubini,  Virtual Book Worm Publishing, pp. 131-164.

Peer-Reviewed Journals

17. Forecast of surface layer meteorological parameters at Cerro Paranal with a mesoscale atmospherical model
Lascaux, F., Masciadri, E., Fini, L., MNRAS, 2015, 449, 1664

16. MOSE: optical turbulence and atmospherical parameters operational forecast at ESO ground-based sites. II: atmospheric parameters in the surface layer [0,30] m
Lascaux, F., Masciadri, E., Fini, L., MNRAS, 2013, 436, 3147

15. MOSE: optical turbulence and atmospherical parameters operational forecast at ESO ground-based sites. I: overview and atmospherical parameters vertical stratification on [0,20] km
Masciadri, E., Lascaux, F., Fini, L., MNRAS, 2013, 436, 1968


14. Characterization of the optical turbulence at Mt. Graham using the Meso-Nh model

Hagelin, S., Masciadri, E., Lascaux, F., MNRAS, 2011, 412, 2695 

13. Mesoscale optical turbulence simulations above Dome C, Dome A and South Pole

Lascaux, F., Masciadri E., Hagelin, S., MNRAS, 2011, 411, 693
   

12. Wind speed vertical distribution at Mt. Graham
Hagelin, S., Masciadri E., Lascaux, F., MNRAS, 2010
, 407, 2230

11. Mesoscale optical turbulence simulations at Dome C: refinements
Lascaux, F., Masciadri E., Hagelin, S., MNRAS, 2010, 403, 1714 

10. Mesoscale optical turbulence simulations at Dome C
Lascaux, F., Masciadri E., Hagelin, S., Stoesz, J., 2009, MNRAS,
398, 1093

9. First Seasonal Study of Optical Turbulence with an Atmospheric Model
Masciadri E. & Egner S., PASP, 2006
, 118, 1604

8. Statistic reliability of the Meso-Nh atmospherical model for 3D  CN simulations

Masciadri E.,  Avila R.,  Sanchez L.J.,
2004, RMxAA, 40, 3 

7. Near ground wind simulations by a meso-scale atmospherical model for the ELTs site selection
Masciadri E. , 2003, RMxAA,  39, 249 

6. First evidence of the finite horizontal extent of the optical turbulence layers. Implications for the new adaptive optics techniques
Masciadri E.,  Avila R., Sanchez L.J., 2002, A&A ,  382, 387

5. Improvement in the Optical Turbulence Parametrization for 3D simulations in a region around a telescope
Masciadri E. & Jabouille P., 2001, A&A, 376, 727 

4. Wavefront coherence time season variability and forecasting at San Pedro Martir site    
Masciadri E. &  Garfias T.,
2001, A&A,  366, 708 

3. 3D numerical simulation of optical turbulence at Roque de Los Muchachos  Observatory using the atmospherical model Meso-Nh
Masciadri E., Vernin J., Bougeault P., 2001 , A&A,  365, 699 

2. 3D mapping of optical turbulence using an atmospheric numerical model. II: First results at Cerro Paranal
Masciadri E., Vernin J., Bougeault P., 1999, A&ASS, 137, 203  

1. 3D mapping of optical turbulence using an atmospheric numerical model. I: A useful tool for the ground-based astronomy
Masciadri E., Vernin J., Bougeault P., 1999, A&ASS, 137, 185