Inhibition of giant-planet formation by rapid gas depletion around young stars

ALTHOUGH stars form from clouds of gas and dust, there are insig-nificant amounts of gas around ordinary (Sun-like) stars. This suggests that hydrogen and helium, the primary constituents of planets such as Jupiter and Saturn, are not easily retained in orbit as a star matures. The gas-giant planets...

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Bibliographic Details
Published in:Nature (London) 1995-02, Vol.373 (6514), p.494-496
Main Authors: Zuckerman, B., Forveille, T., Kastner, J. H.
Format: Article
Language:English
Subjects:
Accretion
Astronomy
Astrophysics
Earth, ocean, space
Exact sciences and technology
Extraterrestrial Environment
Gases
Helium
Humanities and Social Sciences
letter
multidisciplinary
Planets
Pre-main sequence objects, young stellar objects (yso's) and protostars (t tauri stars, orion population, herbig-haro objects, bok globules, bipolar outflows, cometary nebulae, etc.)
Science
Science (multidisciplinary)
Space life sciences
Stars
Stars & galaxies
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Summary:ALTHOUGH stars form from clouds of gas and dust, there are insig-nificant amounts of gas around ordinary (Sun-like) stars. This suggests that hydrogen and helium, the primary constituents of planets such as Jupiter and Saturn, are not easily retained in orbit as a star matures. The gas-giant planets in the Solar System must therefore have formed rapidly. Models of their formation generally suggest that a solid core formed in ⩽10 6 yr, followed by the accretion of the massive gaseous envelope in ∼10 7 yr (refs 1–5). But how and when the gas of the solar nebula dissipated, and how this compares with the predicted timescale of gas-giant formation, remains unclear 6,7 , in part because direct observations of circumstellar gas have been made only for stars either younger or older than the critical range of 10 6 –10 7 yr (refs 8–15). Here we report observations of the molecular gas surrounding 20 stars whose ages are likely to be in this range. The gas dissipates rapidly; after a few million years the mass remaining is typically much less than the mass of Jupiter. Thus, if gas-giant planets are common in the Galaxy, they must form even more quickly than present models suggest.
ISSN:0028-0836
1476-4687
DOI:10.1038/373494a0