Journal
JOURNAL OF COSMOLOGY AND ASTROPARTICLE PHYSICS
Volume -, Issue 5, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.1088/1475-7516/2008/05/010
Keywords
big bang nucleosynthesis; physics of the early universe
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The standard model of big bang nucleosynthesis (BBN) relies on a nuclear reaction network operating with thermal reactivities for Maxwellian plasma. In the primordial plasma, however, a number of non-thermal processes triggered by energetic particles of various origins can take place. In the present work we examine in-flight nuclear reactions induced in the plasma by MeV protons generated in D(d, p) T and He-3(d,p)He-4 fusions. We particularly focus on several low threshold endoergic processes. These are reactions omitted in the standard network - proton-induced break-ups of loosely bound D, Li-7, Be-7 nuclei - and the H-3(p,n)He-3 charge-exchange reaction important for the interconversion of A = 3 nuclei in the early universe. It is found that the break-up processes in the plasma take the form of Maxwellian processes at temperatures T > 70 keV, while in the lower temperature range they proceed as non-thermal reactions. It is shown that at T < 70 keV the in-flight reaction channels can enhance the break-up reactivities by several orders of magnitude. The levels of these reactivities however remain insufficiently high to affect BBN kinetics and change the standard prediction of light element abundances. The abundances Li-7/H = 4.444 x 10(-10). Future steps in the study of non-thermal processes in the primordial plasma are briefly discussed.
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