Spectrally Resolved Gas Kinematics in Cygnus A: XRISM Detects AGN Jet-induced Velocity Dispersion in Multi-temperature Gas

Abstract

We report spectral analysis on a 170 ks XRISM Resolve exposure of the core of Cygnus A. Analyzing the full field of view spectrum in the 1.7-12.0 keV band, we find evidence for two-temperature cluster gas. The hotter (kT = 5.53 0.13 keV) gas has a velocity dispersion of 261 13 km s-1 and a bulk velocity of 120 20 km s-1 with respect to the central galaxy. The cooler gas (kT = 2.0+0.4-0.3 keV) has an even broader velocity dispersion of 440 130 km s-1, with a systematic uncertainty of 120 km s-1. The relative line-of-sight velocity between the hotter and cooler gas can be as high as 450 140 km s-1. We interpret the high velocity dispersions as a combination of turbulence and bulk motion due to the cocoon shock. The upper limit on the non-thermal pressure fraction for the hotter gas is 7.7 0.7\%. We associate the cooler gas with the central region (<35 kpc) and the hotter phase with the gas surrounding it (35-100 kpc). The total energy due to the kinetic motion is 5.1 × 1060 erg, consistent with the energy associated with the central radio source. The kinetic energy injection rate is 6.9 × 1044-7.4 × 1045 erg s-1 under varying assumptions of injection timescales. The range of injection power is higher than the cooling luminosity, and thus the heating and cooling rates in Cygnus A are unbalanced.

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