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Dissecting the Extended X-ray Emission in the Merging Pair NGC 6240

Authors :
Paggi, A.
Fabbiano, G.
Nardini, E.
Karovska, M.
Elvis, M.
Wang, J.
Paggi, A.
Fabbiano, G.
Nardini, E.
Karovska, M.
Elvis, M.
Wang, J.
Publication Year :
2022

Abstract

We present a detailed spectral and imaging analysis of the central $15''$ radius ($\sim 7.5 \text{ kpc}$) region of the merger galaxy NGC 6240 that makes use of all the available \textit{Chandra}-ACIS data ($0.3 - 3 \text{ keV}$ effective exposure of $\sim 190 \text{ ks}$). This region shows extended X-ray structures with lower energy counterparts imaged in CO, [O III] and H$\alpha$ line emission. We find both photo-ionized phases of possible nuclear excitation and thermal shock-excited emission in the different large-scale components: the north-west "loop" detected in H$\alpha$, the region surrounding the two nuclei, the large outflow region to the north-east detected in [O III], and the southern X-ray extensions. The latter could be the ionization cone of the northern nucleus, with the N counterpart being obscured by the galaxy disk. The radial distribution of the X-ray surface brightness suggests a confined hot interstellar medium at $r < 2.5 \text{ kpc}$, with a free-flowing wind at larger radii; if the confinement is magnetic, we estimate B-field values of $\sim 100\,\mu \text{G}$ , similar to those measured in the halo of M82. The thermal gas of the extended halo at $kT \sim 1 \text{ keV}$ absorbs soft X-rays from the AGN, but not the extreme ultraviolet radiation leading to a rapid increase in $F_{\text{[O III]}}/F_{\text{X}}$ beyond $\sim 3 \text{ kpc}$. The $\alpha$ element to Fe abundance ratios of the thermal components in the different regions of the extended X-ray emission are generally compatible with SNe II yields, confirming the importance of the active star formation in NGC 6240.<br />Comment: 36 pages, 16 figures, 4 tables, accepted for publication on ApJ

Details

Database :
OAIster
Publication Type :
Electronic Resource
Accession number :
edsoai.on1312095582
Document Type :
Electronic Resource
Full Text :
https://doi.org/10.3847.1538-4357.ac5025