Astronomy and Astrophysics – Astrophysics
Scientific paper
May 1996
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1996aas...188.7208b&link_type=abstract
American Astronomical Society, 188th AAS Meeting, #72.08; Bulletin of the American Astronomical Society, Vol. 28, p.945
Astronomy and Astrophysics
Astrophysics
Scientific paper
The study of the origin and evolution of the elements is one of the cornerstones of modern astrophysics. For any given isotope of an element a crucial step is the observational determination of the abundance of that isotope and how that abundance varies temporally and spatially. We are making precise determinations of the abundance of the light isotope of helium, {() 3He}, in the interstellar medium of the Milky Way. The {() 3He} abundance is derived from measurements of the spin-flip line of {() 3He(+}) with a rest wavelength of 3.46 cm. Potentially observable sources of ionized gas include HII regions and planetary nebulae located throughout the Galaxy (e.g., Balser et al. 1994 ApJ, 430, 667). {() 3He} can serve both as a probe of cosmology and stellar/galactic evolution. Nuclear fusion reactions inside stars will change the relative amounts of the light elements from the primordial abundances produced by the Big Bang. Theory predicts not only that common solar-type stars are net producers of {() 3He} but also that the mass lost from winds generated at advanced stages of their evolution and the final planetary nebulae should be substantially enriched in {() 3He}. Planetary nebula {() 3He} abundances are therefore important tests of stellar evolution theory since these low-mass, evolved objects are expected to be significant sources of {() 3He}. We report observations of the cosmic abundance of {() 3He} for a sample of six Galactic planetary nebulae. The derived abundances range from {(3) He/H} = 10(-4) to 10(-3) . These abundances are consistent with standard models of stellar evolution of low-mass stars. They are also a factor of ten larger than those found in Galactic HII regions. This research was supported by NSF grant AST91--21169.
Balser Dana S.
Bania Thomas M.
Rood Robert T.
Wilson Thomas L.
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