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Issue A&A
Volume 481, Number 2, April II 2008
Page(s) 575 - 591
Section Astronomical instrumentation
DOI http://dx.doi.org/10.1051/0004-6361:20079279
Published online 07 February 2008



A&A 481, 575-591 (2008)
DOI: 10.1051/0004-6361:20079279

The dancing sky: 6 years of night-sky observations at Cerro Paranal

F. Patat

European Southern Observatory (ESO), K. Schwarzschildstr. 2, 85748, Garching b. München, Germany
    e-mail: fpatat@eso.org

(Received 19 December 2007 / Accepted 16 January 2008)

Abstract
Aims. This work provides the results of the first six years of operation by the systematic night-sky monitoring at ESO-Paranal (Chile).
Methods. The UBVRI night-sky brightness was estimated on about 10 000 VLT-FORS1 archival images, obtained on more than 650 separate nights, distributed over 6 years, and covering the descent from maximum to minimum of sunspot cycle n. 23. Additionally, a set of about 1000 low-resolution, optical, night-sky spectra were extracted and analysed.
Results. The unprecedented database discussed in this paper has led to detecting a clear seasonal variation of the broad-band night-sky brightness in the VRI passbands, similar to the well-known semi-annual oscillation of the Na I D doublet. The spectroscopic data demonstrate that this seasonality is common to all spectral features, with the remarkable exception of the OH rotational-vibrational bands. A clear dependency on the solar activity is detected in all passbands and is particularly pronounced in the U band, where the sky brightness decreased by ~0.6 mag arcsec-2 from maximum to minimum of solar cycle n. 23. No correlation is found between solar activity and the intensity of the Na I D doublet and the OH bands. A strong correlation between the intensity of N I 5200 Å and [OI]6300, 6364 Å is reported here for the first time. The paper also addresses the determination of the correlation time-scales with solar activity and the possible connection with the flux of charged particles emitted by the Sun.


Key words: atmospheric effects -- site testing -- techniques: photometric -- techniques: spectroscopic



© ESO 2008

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