94 research outputs found
COSMIC LITHIUM: GOING UP OR COMING DOWN ?
Observations of interstellar lithium provide a valuable complement to studies
of lithium in Pop I and Pop II stars. Large corrections for unseen LiII and for
non-gas phase lithium have provided obstacles to using interstellar data for
abundance determinations. An approach to surmounting these difficulties is
proposed and is applied to the Galaxy and the LMC. The key is that since
potassium and lithium behave similarly regarding ionization and depletion,
their observed ratio (LiI/KI) can be used to probe the abundance and evolution
of lithium. For ten lines-of-sight in the interstellar medium of the Galaxy
(ISM) the Li/K ratio observed is
entirely consistent with the solar system value . The absence of LiI in front of SN87A in the LMC, coupled
with the observed KI, corresponds to an upper bound (at \rsim 95 \% \ CL) of
This low upper
bound to LMC lithium suggests that cosmic lithium is on its way up from a
primordial abundance lower, by at least a factor of two, than the present Pop I
value of .Comment: Submitted to the ApJ (Part 1), April 14, 199
Light Element Nucleosynthesis
An introductory review of the early evolution of the Universe relevant to the
primordial synthesis of the light nuclides deuterium, helium-3, helium-4 and
lithium-7. The predictions of the element abundances in the "standard", hot,
big bang cosmological model (SBBN) are described. After descriptions of the
evolution of the primordial abundances from "there and then" to "here and now",
the SBBN predictions are compared to current observational data. The
implications for the standard model and for physics beyond the standard model
are discussed.Comment: 12 pages, 5 postscript figures; To appear in the Encyclopedia of
Astronomy and Astrophysics (Institute of Physics) December, 200
BBN And The CBR Probe The Early Universe
Big Bang Nucleosynthesis (BBN) and the Cosmic Background Radiation (CBR)
provide complementary probes of the early evolution of the Universe and of its
particle content. Neutrinos play important roles in both cases, influencing the
primordial abundances of the nuclides produced by BBN during the first 20
minutes, as well as the spectrum of temperature fluctuations imprinted on the
CBR when the Universe is some 400 thousand years old. The physical effects
relevant at these widely separated epochs are reviewed and the theoretical
predictions are compared with observational data to explore the consistency of
the standard models of cosmology and particle physics and to constrain
beyond-the-standard-model physics and cosmology.Comment: 8 pages, 4 figures; to appear in Proceedings of SUSY06, the 14th
International Conference on Supersymmetry and the Unification of Fundamental
Interactions, UC Irvine, California, 12-17 June 2006
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