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Black hole accretion and star formation as drivers of gas excitation and chemistry in Mrk231

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arxiv 1005.2877 v1 pith:FUXIOJAB submitted 2010-05-17 astro-ph.GA astro-ph.CO

Black hole accretion and star formation as drivers of gas excitation and chemistry in Mrk231

classification astro-ph.GA astro-ph.CO
keywords linesexcitationmrk231blackchemistryfindholemodel
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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We present a full high resolution SPIRE FTS spectrum of the nearby ultraluminous infrared galaxy Mrk231. In total 25 lines are detected, including CO J=5-4 through J=13-12, 7 rotational lines of H2O, 3 of OH+ and one line each of H2O+, CH+, and HF. We find that the excitation of the CO rotational levels up to J=8 can be accounted for by UV radiation from star formation. However, the approximately flat luminosity distribution of the CO lines over the rotational ladder above J=8 requires the presence of a separate source of excitation for the highest CO lines. We explore X-ray heating by the accreting supermassive black hole in Mrk231 as a source of excitation for these lines, and find that it can reproduce the observed luminosities. We also consider a model with dense gas in a strong UV radiation field to produce the highest CO lines, but find that this model strongly overpredicts the hot dust mass in Mrk231. Our favoured model consists of a star forming disk of radius 560 pc, containing clumps of dense gas exposed to strong UV radiation, dominating the emission of CO lines up to J=8. X-rays from the accreting supermassive black hole in Mrk231 dominate the excitation and chemistry of the inner disk out to a radius of 160 pc, consistent with the X-ray power of the AGN in Mrk231. The extraordinary luminosity of the OH+ and H2O+ lines reveals the signature of X-ray driven excitation and chemistry in this region.

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  1. Direct detection of cool molecular gas in a star-forming galaxy at $z=7.31$

    astro-ph.GA 2026-06 unverdicted novelty 7.0

    Direct detection of CO(3-2) at z=7.31 in REBELS-25 gives M_mol ~ 10^11 M_sun with f_gas ~0.95, confirming a massive molecular reservoir and showing low-J CO remains detectable in the Epoch of Reionization.