Smadar Naoz, Naoki Yoshida, Nickolay Y. Gnedin
It has been recently shown that the relative velocity between the dark matter
and the baryons (vbc) at the time of recombination can affect the structure
formation in the early universe (Tseliakhovich & Hirata 2010). We statistically
quantify this effect using large cosmological simulations. We use three
different high resolution sets of simulations (with separate transfer functions
for baryons and dark matter) that vary in box size, particle number, and the
value of the relative velocity between dark matter and baryons. We show that
the total number density of halos is suppressed by ~ 20% at z = 25 for vbc =
1{\sigma}(vbc), where {\sigma}(vbc) is the variance of the relative velocity,
while for vbc = 3.4{\sigma}(vbc) the relative suppression at the same redshift
reaches 50%, remaining at or above the 30% level all the way to z = 11. We also
find high abundance of "empty halos", i.e., halos that have gas fraction below
half of the cosmic mean baryonic fraction fb. Specifically we find that for vbc
= 1{\sigma}(vbc) all halos below 10^5M\odot are empty at z \geq 19. The high
abundance of empty halos results in significant delay in the formation of gas
rich mini-halos and the first galaxies.
View original:
http://arxiv.org/abs/1108.5176
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