期刊
ASTROPHYSICAL JOURNAL
卷 804, 期 1, 页码 -出版社
IOP PUBLISHING LTD
DOI: 10.1088/0004-637X/804/1/32
关键词
galaxies: bulges; galaxies: evolution; galaxies: formation; galaxies: fundamental parameters; galaxies: high-redshift
资金
- Australian Research Council [FT110100263]
- Australian Research Council [FT110100263] Funding Source: Australian Research Council
It has been widely remarked that compact, massive, elliptical-like galaxies are abundant at high redshifts but exceedingly rare in the universe today, implying significant evolution such that their sizes at z similar to 2 +/- 0.6 have increased by factors of 3 to 6 to become today's massive elliptical galaxies. These claims have been based on studies that measured the half-light radii of galaxies as though they are all single-component systems. Here we identify 21 spheroidal stellar systems within 90 Mpc that have half-light, major-axis radii R-e less than or similar to 2 kpc, stellar masses 0.7 x 10(11) < M-*/M-circle dot < 1.4 x 10(11), and Sersic indices typically around a value of n = 2-3. This abundance of compact, massive spheroids in our own backyard-with a number density of 6.9 x 10(-6) Mpc(-3) (or 3.5 x 10(-5) Mpc(-3) per unit dex(-1) in stellar mass)-and with the same physical properties as the high-redshift galaxies, had been overlooked because they are encased in stellar disks that usually result in galaxy sizes notably larger than 2 kpc. Moreover, this number density is a lower limit because it has not come from a volume-limited sample. The actual density may be closer to 10(-4), although further work is required to confirm this. We therefore conclude that not all massive spheroids have undergone dramatic structural and size evolution since z similar to 2 +/- 0.6. Given that the bulges of local early-type disk galaxies are known to consist of predominantly old stars that existed at z similar to 2, it seems likely that some of the observed high-redshift spheroids did not increase in size by building (three-dimensional) triaxial envelopes as commonly advocated, and that the growth of (two-dimensional) disks has also been important over the past 9-11 billion years.
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