QSOFEED: Investigating warm molecular, low- and high-ionization atomic gas in six type-2 quasars with GTC/EMIR

Abstract

We present long-slit near-infrared spectroscopic observations of six nearby (z0.1) radio-quiet type-2 quasars (QSO2s) from the Quasar Feedback (QSOFEED) sample. They have bolometric luminosities of 1045-46~erg~s-1 and stellar masses of 1010.6-11.3~M. The observations were obtained with the instrument Espectr\'ografo Multiobjeto Infra-Rojo (EMIR) on the 10.4 m Gran Telescopio Canarias. The nuclear K-band spectra (central 1-3 kpc of the QSO2s) reveal signatures of high-velocity outflows in either the Paα or Brγ lines, depending on the redshift, and in the [Si VI] lines. The broadest kinematic components have full width at half maximum (FWHM) of 1200-2500 km s-1. From the near-infrared hydrogen recombination lines we derived ionized outflow masses of MHion 0.08-20× 106~M, mass outflow rates of MHion0.03-6~M~yr-1, and kinetic powers of EHion 1037.8-40.8~erg~s-1. These ionized gas outflow masses and mass outflow rates have median values that are 5.9 and 5.8 times larger, respectively, than those derived from the [Si VI] line. Our study provides evidence, at least for these six QSO2s, that the near-infrared recombination lines and [Si VI] are tracing the same outflow (i.e., they have similar kinematics and radii), but they carry different amounts of mass. We detected warm molecular lines in the six QSO2s, from which we measured total (nuclear) gas masses from 1.1 (0.7) to 32 (13) ×~103~M, similar to other QSO2s with warm H2 measurements reported in the literature, but we did not find any molecular outflow associated with them. Comparing with other five QSO2s with H2 measurements reported in the literature, we find that the four QSO2s with detected H2 outflows have total (nuclear) H2 masses 2.2 (2.7) times larger, on average.