Published in Astrophysics and Space Science, v. 269/270, p. 303-319 (1999).
astro-ph/9909369

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A MID AND FAR INFRARED VIEW OF GALAXIES

C.J. Cesarsky

C.E.A. Saclay, DSM/DAPNIA/Service d'Astrophysique, 91191 Gif sur Yvette
Cedex, France
European Southern Observatory, Karl-Schwarzschildstr. 2,
D-85754 Garching bei München, Germany; E-mail: ccesarsk@eso.org

M. Sauvage

C.E.A. Saclay, DSM/DAPNIA/Service d'Astrophysique, 91191 Gif sur Yvette
Cedex, France; E-mail: msauvage@cea.fr

Keywords: infrared: lines and bands - infrared: continuum - galaxies: active - galaxies: starburst - stars: formation - ISM: infrared


Abstract. Of the light nuclides observed in the universe today, D, 3He, 4He, and 7Li are relics from its early evolution. The primordial abundances of these relics, produced via Big Bang Nucleosynthesis (BBN) during the first half hour of the evolution of the universe provide a unique window on Physics and Cosmology at redshifts ~ 1010. Comparing the BBN-predicted abundances with those inferred from observational data tests the consistency of the standard cosmological model over ten orders of magnitude in redshift, constrains the baryon and other particle content of the universe, and probes both Physics and Cosmology beyond the current standard models. These lectures are intended to introduce students, both of theory and observation, to those aspects of the evolution of the universe relevant to the production and evolution of the light nuclides from the Big Bang to the present. The current observational data is reviewed and compared with the BBN predictions and the implications for cosmology (e.g. universal baryon density) and particle physics (e.g. relativistic energy density) are discussed. While this comparison reveals the stunning success of the standard model(s), there are currently some challenges which leave open the door for more theoretical and observational work with potential implications for astronomy, cosmology, and particle physics.


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