The Morphology and Kinematics of a Giant, Symmetric Nebula Around a Radio-Loud Quasar 3C\,57: Extended Rotating Gas or Biconical Outflows?

Abstract

Gas flows between galaxies and the CGM play a crucial role in galaxy evolution. When ionized by a quasar, these gas flows can be directly traced as giant nebulae. We present a study of a giant nebula around a radio-loud quasar, 3C\,57 at z≈0.672. Observations from MUSE reveal that the nebula is elongated with a major axis of 70 \, kpc and a minor axis of 40 \, kpc. The nebula displays an approximately symmetric blueshifted-redshifted pattern along the major axis and multi-component emission features in its [O\,II] and [O\,III] profiles. The morphology and kinematics can be explained as rotating gas or biconical outflow, both of which qualitatively reproduce the observed position-velocity diagram. The 3C\,57 nebula is significantly more kinematically disturbed, with W80 (the line width encompassing 80\% of the flux) of approximately 300-400\, km\,s-1, compared to H\,I gas in local early-type galaxies, which typically shows W80 ≈ 50\, km\,s-1. This velocity dispersion is comparable to the gas in cool-core clusters despite originating in a group 100 times less massive. For biconical outflow models, the inferred 10-20 inclination angle is in tension with the unobscured nature of the quasar, as the dusty torus is expected to be perpendicular to the outflow. Neither a quiescent rotating gas origin nor a biconical outflow fully reproduces the observed kinematics and morphology of the 3C\,57 nebula, suggesting a more intricate origin likely involving both rotation and AGN feedback.

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