http://arxiv.org/abs/1412.4739
While bright, blue, compact galaxies are common at $\rm z \sim 1$, they are relatively rare in the local universe, and their evolutionary paths are uncertain. We have obtained resolved H I observations of nine $\rm z \sim 0$ luminous compact blue galaxies (LCBGs) using the Giant Metrewave Radio Telescope and Very Large Array in order to measure their kinematic and dynamical properties and better constrain their evolutionary possibilities. We find that the LCBGs in our sample are rotating galaxies that tend to have nearby companions, relatively high central velocity dispersions, and can have disturbed velocity fields. We compare our measurements to those previously made with single dishes and find that single dish measurements tend to overestimate LCBGs’ rotation velocities and H I masses. We also compare the ratio of LCBGs’ rotation velocities to their velocity dispersions to those of other types of galaxies and find that LCBGs are strongly rotationally supported at large radii, similar to other types of disk galaxies, though within their half-light radii their H I $\rm V_{rot} \sigma^{-1}$ values are comparable to stellar $\rm V_{rot} \sigma^{-1}$ values of dwarf elliptical galaxies. We find that LCBGs’ disks on average are stable with respect to instabilities, though conditions may be conducive to local instabilities at the largest radii, which could lead to the formation of star-forming gas clumps in the disk, resulting eventually in a small central bulge or bar.
K. Rabidoux, D. Pisano, C. Garland, et. al.
Tue, 16 Dec 14
44/78
Comments: Submitted to ApJ
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