Bibcode
Domínguez-Palmero, L.; Balcells, Marc
Bibliographical reference
Formation and Evolution of Galaxy Bulges, Proceedings of the International Astronomical Union, IAU Symposium, Volume 245, p. 465-466
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7
2008
Citations
0
Refereed citations
0
Description
The chronology of bulge and disk formation is a major unsolved issue in
galaxy formation, which impacts on our global understanding of the
Hubble sequence. We present colours of the nuclear regions of
intermediate-redshift disk galaxies, with the aim of obtaining empirical
information of ages of bulges at intermediate z. We work with a sample
of 248 galaxies (123 inclined + 125 face-on) from the HST Groth Strip
Survey (Groth et al. 1994) and another one with 404 objects (214
inclined + 190 face-on) from the HST GOODS-N field (Giavalisco et al.
2004), covering redshifts 0.1 < z < 1.3. Those samples are
apparent-diameter limited at R > 1.4″. We find that, as in the
Local Universe, the minor axis color profiles are negative (bluer
outward), and fairly gentle, indicating that bulge colours are not
distinctly different from disk colours. We apply a conservative
criterion to identify bulges and potential precursors of present-day
bulges, based on nuclear excess surface brightness above the exponential
profile of the outer parts. For galaxies with central brightness
excesses, rest-frame colour distributions show a red sequence that
confirms the finding of very red bulges by Koo et al. (2005), using
independent methods. In contrast, galaxies without central brightness
excesses show typical colours of star-forming populations. Clearly,
something had truncated star formation in many high-density cores,
already at z ~ 1. The truncation epoch is uncertain, 1.5 < z < 10.
The colour-magnitude distribution of intermediate-z bulges shows more
colour dispersion than that of bulges in the Local Universe. About 50%
of bulges are as red as local bulges, while the remainder are
significantly bluer, a possible sign of late bulge formation. We also
find that bulge colours correlate with integrated galaxy colours and
with their disk colours.