University of Hertfordshire

From the same journal

From the same journal

By the same authors

Production of heavy-elements in inhomogeneous cosmologies

Research output: Contribution to journalArticle

  • T. Rauscher
  • J.H. Applegate
  • J.J. Cowan
  • F.K. Thielemann
  • M. Wiescher
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Original languageEnglish
Number of pages32
Pages (from-to)499-530
JournalThe Astrophysical Journal
Journal publication date10 Jul 1994
Publication statusPublished - 10 Jul 1994


Baryon density inhomogeneities during big bang nucleosynthesis can result from a variety of possible causes (e.g., quantum chromodynamic and electroweak phase transitions; cosmic strings). We present here the consequences of such inhomogeneities with special emphasis on the production of heavy elements in a parameter study, varying the global baryon-to-photon ratio eta [which is related to the baryon density and the Hubble constant via eta10 = 64.94OMEGA(b)(H-0/50)2] and the length scale of the density inhomogeneities. The production of heavy elements beyond Fe can only occur in neutron-rich environments; thus, we limit our study to neutron-rich zones, originating from neutron diffusion into low-density regions. In this first calculation including elements heavier than Si, we prove an earlier hypothesis that under such conditions r-process elements can be produced, strongly enhanced by the process of fission cycling. Primordial r-process abundances are, however, very sensitive to the choice of eta. Significant amounts, comparable to or larger than the (permitted) floor of heavy-element abundances found in low-metallicity stars at the onset of galactic evolution, can only be obtained for values in excess of eta10 = 133 (i.e., OMEGA(b)h50(2) = 2.0; e.g., OMEGA(b) = 1, H-0 = 71 or OMEGA(b) = 0.5, H-0 = 100) and large length scales of inhomogeneities, which minimize the back-diffusion of neutrons into proton-rich regions. Recent investigations analyzing the primordial abundances of light elements seem to set tighter limits, eta10 <26-39 (OMEGA(b)h50(2) <0.4-0.6), from He-4 and apparently considerably lower values based on Li, Be, and B. Under such conditions the predicted abundances of heavy elements are a factor of 10(5) or more below presently observable limits.

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