Astronomy and Astrophysics – Astrophysics
Scientific paper
1998-02-19
Phys.Rev.Lett. 81 (1998) 3307-3310
Astronomy and Astrophysics
Astrophysics
revised version, conclusions slightly modified 5 pages, 3 ps-figures included, revtex, also available at http://www.mpa-garc
Scientific paper
10.1103/PhysRevLett.81.3307
We investigate Big Bang nucleosynthesis (hereafter, BBN) in a cosmic environment characterized by a distribution of small-scale matter/antimatter domains. Production of antimatter domains in a baryo-asymmetric universe is predicted in some electroweak baryogenesis scenarios. We find that cosmic antimatter domains of size exceeding the neutron-diffusion length at temperature T approx. 1 MeV significantly affect the light-element production. Annihilation of antimatter preferentially occurs on neutrons such that antimatter domains may yield a reduction of the He-4 abundance relative to a standard BBN scenario. In the limiting case, all neutrons will be removed before the onset of light-element production, and a universe with net baryon number but without production of light elements results. In general, antimatter domains spoil agreement between BBN abundance yields and observationally inferred primordial abundances limits which allows us to derive limits on their presence in the early universe. However, if only small amounts of antimatter are present, BBN with low deuterium and low He-4, as seemingly favored by current observational data, is possible.
Jedamzik Karsten
Rehm Jan B.
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