Warm molecular and ionized gas kinematics in the Type-2 quasar J0945+1737

Abstract

We analyze Near-Infrared Integral Field Spectrograph (NIFS) observations of the type-2 quasar (QSO2) SDSS J094521.33+173753.2 to investigate its warm molecular and ionized gas kinematics. This QSO2 has a bolometric luminosity of 1045.7 erg s-1 and a redshift of z = 0.128. The K-band spectra provided by NIFS cover a range of 1.99-2.40 μm where low-ionization (Paα and Brδ), high ionization ([S XI]λ1.920 μm and [Si~VI]λ1.963 μm) and warm molecular lines (from H2 1-0S(5) to 1-0S(1)) are detected, allowing us to study the multi-phase gas kinematics. Our analysis reveals gas in ordinary rotation in all the emission lines detected and also outflowing gas in the case of the low- and high-ionization emission lines. In the case of the nuclear spectrum, which corresponds to a circular aperture of 0.3~(686 pc) in diameter, the warm molecular lines can be characterized using a single Gaussian component of full width at half maximum (FWHM)= 350-400 km s-1, while Paα, Brδ, and [Si~VI] are best fitted with two blue-shifted Gaussian components of FWHM800 and 1700 km s-1, in addition to a narrow component of 300 km s-1. We interpret the blue-shifted broad components as outflowing gas, which reaches the highest velocities, of up to -840 km s-1, in the south-east direction (PA125), extending up to a distance of 3.4 kpc from the nucleus. The ionized outflow has a maximum mass outflow rate of Mout, max=42-51 M yr-1, and its kinetic power represents 0.1\% of the quasar bolometric luminosity.