Sandro Gennari

TL;DR: AMBER as mentioned in this paper is one of the VLTI instruments that combines up to three beams with low, moderate and high spectral resolutions in order to provide milli-arcsecond spatial resolution for compact astrophysical sources in the near-infrared wavelength domain.

TL;DR: In this article, a data reduction method for single-mode interferometry is presented based on a direct modelling of the fringes in the detector plane, which can be derived for any single-source interferometer.

TL;DR: In this article, Bontemps et al. presented low-resolution near-infrared spectra in the J, H and K bands, and determined for each source spectral type, extinction, effective temperature a nd luminosity by comparing the spectra to those of field dwarfs and to the most recent model stellar atmospheres.

TL;DR: In this paper, Bontemps et al. presented low-resolution near-infrared spectra in the J, H and K bands, and determined for each source spectral type, extinction, eective temperature and luminosity by comparing the spectra to those of field dwarfs and to the most recent model stellar atmospheres.

TL;DR: The first NIR spectro-interferometry of the LBV? Carinae was performed with the AMBER instrument of the ESO Very Large Telescope Interferometer (VLTI) using baselines from 42 to 89 m as mentioned in this paper.