2019
DOI: 10.3847/1538-4357/aaf814
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Kinetic Energy Transfer from X-Ray Ultrafast Outflows to Millimeter/Submillimeter Cold Molecular Outflows in Seyfert Galaxies

Abstract: UltraFast Outflows (UFOs), seen as X-ray blueshifted absorption lines in active galactic nuclei (AGNs), are considered to be a key mechanism for AGN feedback. In this scenario, UFO kinetic energy is transferred into the cold and extended molecular outflow observed at the mm/sub-mm wavelength, which blows away the gas and suppresses star formation and accretion onto the central black hole (BH). However, the energy transfer between the inner UFO and the outer molecular outflow has not yet fully studied mainly du… Show more

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Cited by 32 publications
(49 citation statements)
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“…This is consistent with the recent analysis of Mizumoto et al (2019), who analyzed a small Xray sample of 8 AGN (including I Zw 1), selected from the Cicone et al (2014) CO sample. Mizumoto et al (2019) inferred that the energy transfer rate, from the black hole wind to the molecular gas, spanned a wide range of efficiency from ǫ ∼ 7 × 10 −3 − 1 (where ǫ = 1 corresponds to a perfectly energy conserving outflow). Similarly, the AGN outflows compiled by Fiore et al (2017) show a wide range of momentum load factors, with about half of the AGN receiving a boost of at least ×10 in the molecular outflow component compared to the X-ray wind.…”
Section: Comparison With the Molecular Gas Outflowssupporting
confidence: 91%
“…This is consistent with the recent analysis of Mizumoto et al (2019), who analyzed a small Xray sample of 8 AGN (including I Zw 1), selected from the Cicone et al (2014) CO sample. Mizumoto et al (2019) inferred that the energy transfer rate, from the black hole wind to the molecular gas, spanned a wide range of efficiency from ǫ ∼ 7 × 10 −3 − 1 (where ǫ = 1 corresponds to a perfectly energy conserving outflow). Similarly, the AGN outflows compiled by Fiore et al (2017) show a wide range of momentum load factors, with about half of the AGN receiving a boost of at least ×10 in the molecular outflow component compared to the X-ray wind.…”
Section: Comparison With the Molecular Gas Outflowssupporting
confidence: 91%
“…Remarkably, this is at tension with a classic energy-conserving 4 In NGC 6240 the α ou t C O estimated for the outflow is lower than the α C O estimated for the non-outflowing H 2 gas reservoir, as expected if the large σ v of the clouds in outflow partially decrease the optical depth of its global low-J CO emission (Cicone et al 2018) (1) Outflow type; (2) blast-wave feedback scenario which predicts not only the kinetic power to be conserved but also the momentum rate of the large scale outflow to be boosted (Faucher-Giguère & Quataert 2012). The efficiency factor, which we define as the ratio between the kinetic power of the molecular outflow to the X-ray wind, is E mol / E U FO ∼ 4 · 10 −3 , lower than the range found by Mizumoto et al (2019) for a sample of six Seyfert galaxies, i.e. from ∼ 7 · 10 −3 to ∼ 1.…”
Section: Testing the Agn Feedback Scenariomentioning
confidence: 67%
“…Furthermore, in IRAS F11119+3257, new ALMA data allowed to revise the estimate of the momentum rate of the molecular outflow, finding that this source may be more consistent with the momentum-conserving feedback scenario, contrary to previous claims (see Veilleux et al 2017). Finally, Mizumoto et al (2019) measured a wide range of values for the ratios between the kinetic powers of molecular outflows to the X-ray UFOs, studying a sample of six ULIRGs and quasar-hosts where both an X-ray wind and a molecular outflow have been detected. These findings, together with our new results, point out that the relation (if any) between the disk-wind and the large-scale ISM is more complex than commonly assumed.…”
Section: Testing the Agn Feedback Scenariomentioning
confidence: 99%
“…Such comparisons have now been performed for several additional sources (e.g. Mizumoto et al 2019b). How the AGN outflow travels have been studied in both the observational and theoretical viewpoint (e.g.…”
Section: Impact On Agn Feedbackmentioning
confidence: 99%