The Stellar IMF in Very Metal-Deficient Gas

Abstract

In the context of the star formation through the fragmentation of an extremely metal-deficient protogalactic cloud, the gravitational collapse of filamentary gas clouds is explored with H2 and HD chemistry. It is found by 1D hydrodynamical simulations that the cloud evolution is prescribed mainly by the initial density (n0) and H2 abundance (x H2,0). In particular, it turns out that the evolution of low-density filaments (n0 105 cm-3) bifurcates at a critical H2 abundance of x H2,cr 3× 10-3, beyond which HD cooling overwhelms H2 cooling. The numerical results indicate that the stellar IMF is likely to be double-peaked and deficient in sub-solar mass stars, where the high mass peak of the IMF is around 10M or 102M, dependently on the initial density and H2 abundance. If the gas in protogalactic clouds is photoionized by UV radiation or shock-heated, the H2 abundance could exceed x H2,cr 3× 10-3 by H- reactions. Then, the high mass peak would be O(10) M.

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