Ry. Cen, Synchronized formation of subgalactic systems at cosmological reionization: Origin of halo globular clusters, ASTROPHYS J, 560(2), 2001, pp. 592-598
Gas-rich subgalactic halos with mass M(t)less than or equal to 10(7.5) M-ci
rcle dot, while incapable of forming stars because of a lack of adequate co
olants, contain a large fraction of baryonic mass at cosmological reionizat
ion. We show that the reionization of the universe at z=6-20 has an interes
ting physical effect on these halos. The external radiation field causes a
synchronous inward propagation of an ionization front toward each halo, res
ulting in an inward, convergent shock. The resident gas of mass M(b)similar
to 10(4)-10(7) M-circle dot in low-spin (initial dimensionless spin parame
ter lambda less than or equal to0.01) halos with a velocity dispersion of s
igma (v) less than or equal to1 1km s(-1) would be compressed by a factor o
f about 100 in radius and form self-gravitating baryonic systems. Under the
assumption that such compressed gaseous systems fragment to form stars, th
e final stellar systems will have a size of about 2-40 pc, a velocity dispe
rsion of about 1-10 km s(-1), and a total stellar mass of M(*)similar to 10
(3)-10(6) M-circle dot. The characteristics of these proposed systems seem
to match the observed properties of halo globular clusters The expected num
ber density is consistent with the observed number density of halo globular
clusters. The observed mass function of slope of about -2 at the high-mass
end is predicted by the model. Strong correlation between velocity dispers
ion and luminosity (or surface brightness) and lack of correlation between
velocity dispersion and size, in agreement with observations, are expected.
Metallicity is, on average, expected to be low and should not correlate wi
th any other quantities of globular clusters; however, a larger dispersion
of metallicity among globular clusters is expected for larger galaxies. The
observed trend of specific frequency with galaxy type may be produced in t
he model. We suggest that these stellar systems are seen as halo globular c
lusters today.