Astronomy and Astrophysics – Astrophysics
Scientific paper
2005-10-04
Mon.Not.Roy.Astron.Soc.368:1301-1310,2006
Astronomy and Astrophysics
Astrophysics
11 pages, 13 figures, Accepted for publication in MNRAS (Minor changes)
Scientific paper
10.1111/j.1365-2966.2006.10222.x
We use the algorithm of Cole et al. (2000) to generate merger trees for the first star clusters in a Lambda CDM cosmology under an isotropic UV background radiation field, parametrized by J_21. We have investigated the problem in two ways: a global radiation background and local radiative feedback surrounding the first star clusters. Cooling in the first halos at high redshift is dominated by molecular hydrogen, H_2 - we call these Generation 1 objects. At lower redshift and higher virial temperature, T_vir > 10^4K, electron cooling dominates - we call these generation 2. Radiation fields act to photo-dissociate H_2, but also generate free electrons that can help to catalyse its production. At modest radiation levels, J_{21}/(1+z)^3 ~ 10^{-12}-10^{-7}, the nett effect is to enhance the formation of Generation 1 star-clusters. At higher fluxes the heating from photo-ionisation dominates and halts their production. With a realistic build-up of flux over time, the period of enhanced H_2 cooling is so fleeting as to be barely discernable and the nett effect is to move primordial star cluster formation towards Generation 2 objects at lower redshift. A similar effect is seen with local feedback. Provided that enough photons are produced to maintain ionization of their host halo, they will suppress the cooling in Generation 1 halos and boost the numbers of primordial star clusters in Generation 2 halos. Significant suppression of Generation~1 halos occurs for specific photon fluxes in excess of about 10^{43} ph s^{-1} Msun^{-1}.
MacIntyre Michael A.
Santoro Fernando
Thomas Peter A.
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