Astronomy and Astrophysics – Astrophysics
Scientific paper
2003-04-03
New Astron. 10 (2004) 113-120
Astronomy and Astrophysics
Astrophysics
14 pages, 2 figures. Major changes. Accepted for publication in New Astronomy
Scientific paper
10.1016/j.newast.2004.06.003
We show that the explosion of the first supernovae can trigger low-mass star formation via gravitational fragmentation of the supernova-driven gas shell. If the shell mass does not exceed the host galaxy gas mass, all explosions with energies E_SN > 10^{51} erg can lead to shell fragmentation. However, the minimum ambient density required to induce such fragmentation is much larger, n_0 > 300 cm^{-3}, for Type II supernovae than for pair-instability ones, which can induce star formation even at lower ambient densities. The typical mass of the unstable fragments is 10^{4-7} Msun; their density is in the range 110-6x10^7 cm{-3}. Fragments have a metallicity strictly lower than 10^{-2.6} Zsun and large values of the gravitational-to-pressure force ratio f ~ 8. Based on these findings, we conclude that the second generation of stars produced by such self-propagating star formation is predominantly constituted by low-mass, long-living, extremely metal-poor (or even metal-free, if mixing is suppressed) stars. We discuss the implications of such results for Pop III star formation scenarios and for the most iron-poor halo star HE0107-5240.
Ferrara Andrea
Salvaterra Ruben
Schneider Raffaella
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