Young Dwarf Galaxies and Cosmology
Abstract
We develop here the theme that extremely metal-deficient Blue Compact Dwarf Galaxies (BCDs), those with Z < Zsun/20, are young galaxies which did not start to form stars until ~ 100 Myr ago. They can be thus considered as primeval galaxies in our local volume of the universe, and are excellent laboratories for studying physical processes occuring at the time of galaxy formation in very metal-deficient environments. We use BCDs to derive a new value of the primordial helium abundance Yp = 0.244+/-0.001, higher than previous determinations. This corresponds to a baryon mass fraction Omegab*h250 = 0.058+/-0.007. We discuss the problem of dust in a very low-metallicity environment and show how a large fraction (~ 75%) of the young stars are not visible, and that any derivation of the cosmic star formation rate based only on optical/UV fluxes would be an underestimate. We also show how the loss of Ly-alpha photons from starburst regions puts strong constraints on Ly-alpha searches of high-redshift galaxies.
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