Blowing star formation away in AGN Hosts (BAH) -- IV: Feeding and feedback in 3C 293 observed with JWST NIRSpec

Abstract

We use JWST/NIRSpec observations of the radio galaxy 3C 293 to map the emission, extinction, and kinematics of hot molecular and ionized gas, as well as stellar kinematics, within the inner ~ 2 kpc. The stellar velocity field is well described by a rotating disk model, with its kinematical center offset by ~ 0.5 arcsec from the continuum peak. The hot molecular gas is traced by the H22.12μm emission line, and the ionized gas by [Fe II]1.64μm and Paα. The gas presents three main kinematic components: a rotating disk seen as a narrow component (σ ~ 100 kms-1); a blueshifted broad outflow (σ ~ 250 kms-1); and a fast ionized outflow as a very broad component (σ ~ 640 kms-1). Extinction maps reveal high AV values, up to ~ 35, spatially coincident with dust lanes seen in optical images. In addition to the disk and outflows components, inflows along the dust lanes are detected in H2 gas, with a mass inflow rate of Min ~ 4 x 10-4 M yr-1, which is lower than the AGN accretion rate. For the outflows, we derive peak mass-outflow rates of 0.08 0.02 Myr-1 (molecular) and 6.5 1.7 Myr-1 (ionized). The outflow, driven by the radio jet, has a kinetic power of 5.7% of the jet power - enough to suppress star formation. Our results highlight 3C 293's turbulent post-merger history and JWST's unique capability to probe dust-obscured AGN.