Ionized Outflows from Compact Steep Spectrum Sources
Abstract
Massive outflows are known to exist, in the form of extended emission-line regions (EELRs), around about one-third of powerful FR II radio sources. We investigate the origin of these EELRs by studying the emission-line regions around compact-steep-spectrum (CSS) radio galaxies that are younger (10 to 10 years old) versions of the FR II radio galaxies. We have searched for and analyzed the emission-line regions around 11 CSS sources by taking integral field spectra using GMOS on Gemini North. We fit the [\ion{O}{3}] line and present the velocity maps for each detected emission-line region. We find, in most cases, that the emission-line regions have multi-component velocity structures with different velocity dispersions and/or flux distributions for each component. The velocity gradients of the emission-line gas are mostly well aligned with the radio axis, suggesting a direct causal link between the outflowing gas and the radio jets. The complex velocity structure may be a result of different driving mechanisms related to the onset of the radio jets. We also present the results from the line-ratio diagnostics we used to analyze the ionization mechanism of the extended gas, which supports the scenario where the emission-line regions are ionized by a combination of AGN radiation and shock excitation.
Cite
@article{arxiv.1306.5237,
title = {Ionized Outflows from Compact Steep Spectrum Sources},
author = {Hsin-Yi Shih and Alan Stockton and Lisa Kewley},
journal= {arXiv preprint arXiv:1306.5237},
year = {2015}
}
Comments
Accepted for publication in ApJ