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Cold atomic matter in the Universe Circmstellar shells around Asymptotic Giant Branch stars Extrait du Observatoire de Paris centre de recherche et enseignement en astronomie et astrophysique relevant du Ministère de l'Enseignement supérieur et de la Recherche. https://www.obspm.fr/cold-atomic-matter-in-the-universe-circmstellar.html Cold atomic matter in the Universe Circmstellar shells around Asymptotic Giant Branch stars Date de mise en ligne : lundi 1er octobre 2001 Observatoire de Paris centre de recherche et enseignement en astronomie et astrophysique relevant du Ministère de l'Enseignement supérieur et de la Recherche. Copyright © Observatoire de Paris centre de recherche et enseignement en astronomie et astrophysique relevant du Ministère de l'Enseignement Page 1/2 supérieur Cold atomic matter in the Universe Circmstellar shells around Asymptotic Giant Branch stars Stars of mass comparable to the Sun (Mo) and up to 5-6 Mo, after having spent several billions of years burning quietly hydrogen into helium inside their cores, go through a more active phase in which hydrogen and helium are burnt into carbon. During this phase the stellar atmosphere increases in size considerably, by 2 to 3 orders of magnitude. The star is now a red giant on the Asymptotic Giant Branch (AGB). The atmosphere becomes unstable, so that the luminosity and the radius vary in time. It is also during this phase, that these stars undergo mass loss at a large rate, which may reach 10-5 Mo per year, and with an expansion velocity in the range 5 to 20 km/s. This phase will last for typically one million years and therefore the stars get progressively enshrouded into a shell of gas and dust which may reach a size of about one light year before getting disolved into the interstellar medium.The matter at the surface of a giant star is at a temperature between 2000 and 3000 degrees Kelvin. However when it is ejected it expands into a larger and larger volume, and therefore cools down. On the other hand, the matter is heated by the interstellar radiation and by cosmic rays. The expectation was that matter in expanding shells could be found at temperatures down to 10 to 15 Kelvin. In fact, observations done recently with the Nançay radio-telescope in the atomic hydrogen (HI) line at 21 cm have shown that the matter around IRC+10216 could be still colder and be found at a temperature of 4 Kelvin, very close to the cosmic background one (3 Kelvin). In the interstellar medium, the observations show that atomic hydrogen is in general at a temperature around 50 Kelvin, whereas in the molecular clouds which are more dense, the matter may be at temperatures around 10 to 15 Kelvin. However, observations of HI on the line of sight of extra-galactic radio-sources reveal the existence of interstellar regions where the atomic hydrogen could at a lower temperature, around 20 Kelvin. Recently the canadian astronomers, Knee and Brunt (Nature volume 412, page 308), have discovered a large atomic interstellar cloud which is very cold, with a temperature around 10 Kelvin. Copyright © Observatoire de Paris centre de recherche et enseignement en astronomie et astrophysique relevant du Ministère de l'Enseignement Page 2/2 supérieur