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ISO-SWS calibration and the accurate modelling of cool-star atmospheres

2003; EDP Sciences; Volume: 400; Issue: 2 Linguagem: Inglês

10.1051/0004-6361

1432-0746

L. Decin, B. Vandenbussche, C. Waelkens, G. Decin, Kimmo Eriksson, B. Gustafsson, B. Plez, A. J. Sauval,

Atmospheric Ozone and Climate

A detailed spectroscopic study of 11 giants with spectral type from G9 to M2 is presented. The 2.38–4.08 μm wavelength-range of band 1 of ISO-SWS (Short-Wavelength Spectrometers on board of the Infrared Space Observatory) in which many different molecules – with their own dependence on each of the stellar parameters – are absorbing, enables us to estimate the effective temperature, the gravity, the microturbulence, the metallicity, the CNO-abundances, the -ratio and the angular diameter from the ISO-SWS data. Using the Hipparcos' parallax, the radius, luminosity and gravity-inferred mass are derived. The stellar parameters obtained are in good agreement with other published values, though also some discrepancies with values deduced by other authors are noted. For a few stars (δ Dra, ξ Dra, α Tuc, H Sco and α Cet) some parameters – e.g. the CNO-abundances – are derived for the first time. By examining the correspondence between different ISO-SWS observations of the same object and between the ISO-SWS data and the corresponding synthetic spectrum, it is shown that the relative accuracy of ISO-SWS in band 1 (2.38–4.08 μm) is better than 2% for these high-flux sources. The high level of correspondence between observations and theoretical predictions, together with a confrontation of the estimated (ISO) value with values derived from colours – which demonstrates the consistency between , BCK, and derived from optical or IR data – proves that both the used marcs models to derive the stellar quantities and the flux calibration of the ISO-SWS detectors have reached a high level of reliability.