Neutrino production of deuterium in supermassive stars and possible implications for deuterium detections in Lyman limit systems - INSPIRE

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Neutrino production of deuterium in supermassive stars and possible implications for deuterium detections in Lyman limit systems

George M. Fuller
(
- UC, San Diego
)
,
Xiang-Dong Shi
(
- UC, San Diego
)

May, 1997

10 pages

Published in:

Astrophys.J.Lett. 487 (1997) L25-L28

e-Print:

astro-ph/9705256 [astro-ph]

DOI:

10.1086/310879

View in:

ADS Abstract Service

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Abstract: (arXiv)

We describe how thermally produced anti-electron neutrinos (

\bar\nu_e

) from the homologously collapsing core of a supermassive star (M \ga 5\times10^4 M_\odot) can lead to significant deuterium enrichment in the ejected envelope of such a star. Deuterium-enriched material at high redshift might then serve as a clue to the existence of pregalactic supermassive stars. Conceivably, the ejected deuterium-enriched material could intercept the line of sight to a distant QSO and mimic a Lyman limit absorber. In such a case, the deuterium abundance inferred from absorption lines might not reflect the true primordial abundance of deuterium. We discuss relevant theoretical uncertainties in supermassive star physics as well as potential observational signatures in Lyman

\alpha

absorber clouds for processing by stars of this kind.

astrophysics: matter
antineutrino/e: production
deuterium: density
helium: nuclide
numerical calculations

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Figures(0)

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