The Night Sky at the Calar Alto Observatory II: The Sky at the Near-infrared

Sánchez, S. F.; Thiele, U.; Aceituno, J.; Cristobal, D.; Perea, J.; Alves, J.
Referencia bibliográfica

The Publications of the Astronomical Society of the Pacific, Volume 120, Issue 873, pp. 1244-1254.

Fecha de publicación:
11
2008
Número de autores
6
Número de autores del IAC
1
Número de citas
21
Número de citas referidas
18
Descripción
We present the characterization of additional properties of the night sky at the Calar Alto observatory, following the study started by Sánchez et al. in 2007. We focus here on the night-sky brightness at the near-infrared, the telescope seeing, and the fraction of useful time at the observatory. For this study we have collected a large data set comprising 7311 near-infrared images taken regularly along the last four years for the ALHAMBRA survey (, , and bands), together with a more reduced data set of additional near-infrared images taken for the current study. In addition, we collected the information derived by the meteorological station at the observatory during the last 10 yar, together with the results from the cloud sensor for the last . We analyze the dependency of the near-infrared night-sky brightness with the air mass and the seasons, studying its origins and proposing a zenithal correction. A strong correlation is found between the night-sky brightness in the band and the air temperature, with a gradient of per 1°C. The typical (darkest) night-sky brightness in the , , and -band are 15.95 mag (16.95 mag), 13.99 mag (14.98 mag), and 12.39 mag (13.55 mag), respectively. These values have been derived for the first time for this observatory, showing that Calar Alto is as dark in the near-infrared as most of the other astronomical sites in the world with which we could compare it. Only Mauna Kea is clearly darker in the band, but not only compared to Calar Alto but to any other observatory in the world. The typical telescope seeing and its distribution were derived on the basis of the FWHM of the stars detected in the considered near-infrared images. This value, when converted to the band, is only slightly larger than the atmospheric seeing measured at the same time by the seeing monitor, . Therefore, the effects different from the atmosphere produce a reduced degradation on the telescope seeing, of the order of . Finally we estimate the fraction of useful time based on the relative humidity, gust wind speed, and presence of clouds. This fraction, , is very similar to the one derived in 2007, based on the fraction of time when the extinction monitor is working.