MOSFIRE and LDSS3 Spectroscopy for an [OII] Blob at z=1.18: Gas Outflow and Energy Source

Abstract

We report our Keck/MOSFIRE and Magellan/LDSS3 spectroscopy for an [OII] Blob, OIIB10, that is a high-z galaxy with spatially extended [OII]λλ3726,3729 emission over 30 kpc recently identified by a Subaru large-area narrowband survey. The systemic redshift of OIIB10 is z=1.18 securely determined with [OIII]λλ4959,5007 and Hβ emission lines. We identify FeIIλ2587 and MgIIλλ2796,2804 absorption lines blueshifted from the systemic redshift by 8050 and 26040 km s-1, respectively, which indicate gas outflow from OIIB10 with the velocity of 80-260 km s-1. This outflow velocity is comparable with the escape velocity, 250140 km s-1, estimated under the assumption of a singular isothermal halo potential profile. Some fraction of the outflowing gas could escape from the halo of OIIB10, suppressing OIIB10's star-formation activity. We estimate a mass loading factor, η, that is a ratio of mass outflow rate to star-formation rate, and obtain η>0.8 0.1 which is relatively high compared with low-z starbursts including U/LIRGs and AGNs. The major energy source of the outflow is unclear with the available data. Although no signature of AGN is found in the X-ray data, OIIB10 falls in the AGN/star-forming composite region in the line diagnostic diagrams. It is possible that the outflow is powered by star formation and a type-2 AGN with narrow FWHM emission line widths of 70-130 km s-1. This is the first detailed spectroscopic study of oxygen-line blobs, which includes the analyses of the escape velocity, the mass loading factor, and the presence of an AGN, and a significant step to understanding the nature of oxygen-line blobs and the relation with gas outflow and star-formation quenching at high redshift.