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- Title
Catalyzed Big-Bang nucleosynthesis.
- Authors
Pospelov, Maxim
- Abstract
We point out that the existence of metastable, τ >103 s, negatively charged electroweak-scale particles (X–) alters the predictions for lithium and other primordial elemental abundances for A > 4 via the formation of bound states with nuclei during Big-Bang nucleosynthesis (BBN). In particular, we show that the bound states of X– with helium, formed at temperatures of about T = 108 K, lead to the catalytic enhancement of 6Li production, which is eight orders of magnitude more efficient than the standard channel. In particle physics models, where subsequent decay of X– does not lead to large nonthermal BBN effects, this directly translates to the level of sensitivity to the number density of long-lived X– particles (τ > 105 s) relative to entropy of nX – / s ≤ 3 × 10–17, which is one of the most stringent probes of electroweak scale remnants known to date. It is also argued that unstable charged particles with lifetime of order ~2000 s may naturally lead to the depletion of 7Li by a factor of two, making it consistent with observationally determined abundances. PACS No.: 98.80.Ft
- Subjects
BIG bang theory; NUCLEOSYNTHESIS; CHEMICAL elements; COSMOCHEMISTRY; METAPHYSICAL cosmology
- Publication
Canadian Journal of Physics, 2008, Vol 86, Issue 4, p611
- ISSN
0008-4204
- Publication type
Article
- DOI
10.1139/P07-206