OSIRIS View of Submillimeter Galaxies: A 2-D Spectroscopic Insight to Starburst Galaxies in the High-Redshift Universe

Details OSIRIS View of Submillimeter Galaxies: A 2-D Spectroscopic Insight to Starburst Galaxies in the High-Redshift Universe OSIRIS View of Submillimeter Galaxies: A 2-D Spectroscopic Insight to Starburst Galaxies in the High-Redshift Universe

May 2010

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2010iaus..267...46m&link_type=abstract

Co-Evolution of Central Black Holes and Galaxies, Proceedings of the International Astronomical Union, IAU Symposium, Volume 267

Physics

Optics

Galaxies: High-Redshift, Galaxies: Starburst, Galaxies: Active, Galaxies: Kinematics, Dynamics, Techniques: Spectroscopic

Scientific paper

Ultra-luminous infrared galaxies (LIR > 1012 L&sun;) are locally rare, but appear to dominate the co-moving energy density at higher redshifts (z > 2). Many of these are optically faint, dust-obscured galaxies that have been identified by the detection of their thermal dust emission in the sub-mm. Multi-wavelength spectroscopic follow-up observations of these sub-mm galaxies (SMGs) have shown that they are massive (Mstellar ~ 1011 M&sun;) objects undergoing intense star-formation (SFRs ~ 102-103 M&sun; yr-1) with a mean redshift of z ~ 2, coinciding with the epoch of peak quasar activity. Furthermore, the presence of AGNs in ~ 28-50% of SMGs has been unveiled in the X-ray and near-IR. When both AGN and star-formation activity are present, long-slit spectroscopic techniques face difficulties in disentangling their independent contributions from integrated spectra. We have observed Hα emission from a sample of three SMGs in the redshift range z ~ 1.4-2.4 with the integral field spectrograph OSIRIS on Keck, in conjunction with Laser Guide Star Adaptive Optics. The spatially resolved, two-dimensional spectroscopic insight that these observations provide is the only viable probe of the spatial distribution and line-of-sight motion of ionized gas within these galaxies. We detect multiple galactic-scale sub-components, distinguishing the compact, broad Hα emission arising from an AGN from the more extended narrow-line emission of star-forming regions spreading over ~ 8-17 kpc. We explore the dynamics of gas in the inner galaxy halo to improve our understanding of the internal dynamics of this enigmatic galaxy population. We find no evidence of ordered orbital motion such as would be found in a gaseous disk, but rather large velocity offsets of a few hundred kilometers per second between distinct galactic-scale sub-components. Considering the disturbed morphology of SMGs, these sub-components are likely remnants of originally independent gas-rich galaxies that are in the process of merging, hence triggering the ultraluminous SMG phase.

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