HERUS: A CO ATLAS FROM SPIRE SPECTROSCOPY OF LOCAL ULIRGs

Pearson, Chris; Rigopoulou, D.; Hurley, P. D.; Farrah, D.; Afonso, J.; Bernard─Salas, J.; Borys, Colin; Clements, D. L.; Cormier, D.; Efstathiou, A.; González-Alfonso, E.; Lebouteiller, V.; Spoon, H. W. W.

doi:10.3847/0067-0049/227/1/9

Cited by 28 publications

(30 citation statements)

References 79 publications

(120 reference statements)

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“…Photometry of the HERUS galaxies in the SPIRE bands PSW (250µm), PMW (350µm), PLW (500µm). These fluxes originally appeared in Pearson et al (2016) ters of our model are thus A, β and T. We fit these to the data for each individual HERUS ULIRG using the emcee Markov Chain Monte Carlo package 1 (Foreman-Mackey et al, 2013, for the general approach see also Lewis & Bridle 2002, Jaynes 2003 to probe the parameter space, equivalent to an exploration of the χ 2 surface with a nonlinear parameterization. We apply the following priors for our parameter values: for temperature (T) we adopt a uniform prior between 3 and 100K; for emissivity (β) we adopt a uniform prior between 0 and 3; for A, because the wide range of distances for our sources implies a range of amplitudes covering several orders 1 http://dan.iel.fm/emcee/current/ of magnitude, we adopt a uniform prior on log(A) between -3 and 10.…”

Section: Fitting Methodsmentioning

confidence: 99%

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HERUS: the far-IR/submm spectral energy distributions of local ULIRGs and photometric atlas

Clements

Pearson

Farrah

et al. 2017

Monthly Notices of the Royal Astronomical Society

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We present the Herschel-SPIRE photometric atlas for a complete flux limited sample of 43 local Ultraluminous Infrared Galaxies (ULIRGs), selected at 60µm by IRAS, as part of the HERschel ULIRG Survey (HERUS). Photometry observations were obtained using the SPIRE instrument at 250, 350 and 500µm. We describe these observations, present the results, and combine the new observations with data from IRAS to examine the far-IR spectral energy distributions (SEDs) of these sources. We fit the observed SEDs of HERUS objects with a simple parameterised modified black body model where temperature and emissivity β are free parameters. We compare the fitted values to those of non-ULIRG local galaxies, and find, in agreement with earlier results, that HERUS ULIRGs have warmer dust (median temperature T = 37.9 ±4.7 K compared to 21.3±3.4 K) but a similar β distribution (median β = 1.7 compared to 1.8) to the Herschel reference sample (HRS, Cortese et al., 2014) galaxies. Dust masses are found to be in the range of 10 7.5 to 10 9 M ⊙ , significantly higher than that of Herschel Reference Sample (HRS) sources. We compare our results for local ULIRGs with higher redshift samples selected at 250 and 850µm. These latter sources generally have cooler dust and/or redder 100-to-250 µm colours than our 60µm-selected ULIRGs. We show that this difference may in part be the result of the sources being selected at different wavelengths rather than being a simple indication of rapid evolution in the properties of the population.

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Section: Fitting Methodsmentioning

confidence: 99%

“…Other observations for this sample are also available at a range of resolutions and wavelengths. For more details on the SPIRE spectroscopic observations see Pearson et al (2016).…”

Section: The Herus Samplementioning

confidence: 99%

HERUS: the far-IR/submm spectral energy distributions of local ULIRGs and photometric atlas

Clements

Pearson

Farrah

et al. 2017

Monthly Notices of the Royal Astronomical Society

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“…We note, however, that there are examples of radio-quiet galaxies with jet-like winds indicating the existence of either a faint ongoing jet or a past jet event (e.g., Aalto et al 2016;Fernández-Ontiveros et al 2019). Finally, the CO spectral line energy distribution (SLED) up to J = 11 reveals highly excited gas in IRAS F08572+3915 (Papadopoulos et al 2010;Pearson et al 2016). While the strong AGN and starburst activity contribute significantly to the high molecular gas excitation, we cannot rule out that shocks resulting from a potential jet-dense ISM play a role in shaping the SLED beyond J ≈ 7 (e.g., Papadopoulos et al 2008;Pellegrini et al 2013).…”

Section: The Origin Of the Fast Gas Blob ∼ 6 Kpc Away From The Galaxymentioning

confidence: 96%

AGN feedback in a galaxy merger: multi-phase, galaxy-scale outflows with a fast molecular gas blob ∼6 kpc away from IRAS F08572+3915

Herrera-Camus

Janssen

Sturm

et al. 2020

A&A

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To understand the role that AGN feedback plays in galaxy evolution we need in-depth studies of the multi-phase structure and energetics of galaxy-wide outflows. In this work we present new, deep (∼ 50 hr) NOEMA CO(1-0) line observations of the molecular gas in the powerful outflow driven by the AGN in the ultra-luminous infrared galaxy IRAS F08572+3915. We spatially resolve the outflow, finding that its most likely configuration is a wide-angle bicone aligned with the kinematic major axis of the rotation disk. The molecular gas in the wind reaches velocities up to approximately ±1200 km s −1 and transports nearly 20% of the molecular gas mass in the system. We detect a second outflow component located ∼ 6 kpc north-west from the galaxy moving away at ∼ 900 km s −1 , which could be the result of a previous episode of AGN activity. The total mass and energetics of the outflow, which includes contributions from the ionized, neutral, warm and cold molecular gas phases is strongly dominated by the cold molecular gas. In fact, the molecular mass outflow rate is higher than the star formation rate, even if we only consider the gas in the outflow that is fast enough to escape the galaxy, which accounts for about ∼40% of the total mass of the outflow. This results in an outflow depletion time for the molecular gas in the central ∼1.5 kpc region of only ∼ 3 Myr, a factor of ∼ 2 shorter than the depletion time by star formation activity.

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“…To make a similar analysis, we referred to Pearson et al (2016), who observed the CO emission lines from J = 5-4 to J = 13-12 in 43 ULIRGs using the Herschel Space Observatory. Seven of their sample galaxies are included in our targets, namely, all of the AKARI targets and IRAS 00397−1312.…”

Section: Heating Mechanismmentioning

confidence: 99%

The Near-infrared CO Absorption Band as a Probe to the Innermost Part of an AGN-obscuring Material

Baba

Isobe

Shirahata

2018

ApJ

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We performed a systematic analysis of the 4.67 µm CO ro-vibrational absorption band toward nearby active galactic nuclei (AGNs) and analyzed the absorption profiles of ten nearby galaxies collected from the AKARI and Spitzer spectroscopic observations that show the CO absorption feature by fitting a plane-parallel local thermal equilibrium gas model. We found that CO gas is warm (200-500 K) and has a large column density (N H 10 23 cm −2 ). The heating of the gas is not explicable by either UV heating or shock heating because these processes cannot represent the large column densities of the warm gas. Instead, X-ray photons from the nuclei, which can produce large columns of warm gas with up to N H ∼ 10 24 cm −2 , are the most convincing power source. The hydrogen column density estimated from the CO band is smaller than that inferred from X-ray observations. These results indicate that the region probed by the near-infrared CO absorption is in the vicinity of the nuclei and is located outside the X-ray emitting region. Furthermore, the covering factors nearly unity required by the observed deep absorption profiles suggest that the probed region is close to the continuum source, which can be designated as the inner rim of the obscuring material around the AGN.

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HERUS: A CO ATLAS FROM SPIRE SPECTROSCOPY OF LOCAL ULIRGs

Cited by 28 publications

References 79 publications

HERUS: the far-IR/submm spectral energy distributions of local ULIRGs and photometric atlas

HERUS: the far-IR/submm spectral energy distributions of local ULIRGs and photometric atlas

AGN feedback in a galaxy merger: multi-phase, galaxy-scale outflows with a fast molecular gas blob ∼6 kpc away from IRAS F08572+3915

The Near-infrared CO Absorption Band as a Probe to the Innermost Part of an AGN-obscuring Material

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