Two distinct molecular cloud populations detected in massive galaxies

Rose, Tom; McNamara, B R; Combes, F; Edge, A C; McDonald, M; O’Sullivan, Ewan; Russell, H; Fabian, A C; Ferland, G; Salomé, P; Tremblay, G

doi:10.1093/mnras/stae1831

Monthly Notices of the Royal Astronomical Society

2024

DOI: 10.1093/mnras/stae1831

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Two distinct molecular cloud populations detected in massive galaxies

Tom Rose,

B R McNamara,

F Combes

et al.

Abstract: We present new ALMA observations of CO, CN, CS, HCN and HCO+ absorption seen against the bright and compact radio continuum sources of eight galaxies. Combined with archival observations, they reveal two distinct populations of molecular clouds, which we identify by combining CO emission and absorption profiles to unambiguously reveal each cloud’s direction of motion and likely location. In galaxy disks, we see clouds with low velocity dispersions, low line of sight velocities and a lack of any systemic inflow… Show more

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Cited by 3 publications

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Digging deeper into NGC 6868 II: ionized gas and excitation mechanism

Benedetti,

Riffel,

Ricci

et al. 2024

Monthly Notices of the Royal Astronomical Society

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We studied the ionized gas in the inner region ($\sim$$680\times 470$ pc2) of the galaxy NGC 6868 using Gemini/GMOS (Gemini Multi-Object Spectrograph) integral field unit observations. Channel maps reveal complex kinematics and morphology, indicating multiple processes at work in NGC 6868. Through emission-line fitting, we identified two ubiquitous components in our data: a narrow ($\sigma \sim 110$ km s$^{-1}$) tracing an ionized gas disc and a broad component ($\sigma \sim 300$ km s$^{-1}$) mainly associated with inflowing/outflowing gas. The derived V-band reddening shows a spatial distribution consistent with that obtained from stellar population synthesis, although with generally higher values. For the first time, we measured the electron temperature in NGC 6868, finding values ranging from $\sim$14 000 K in the central region to $\gtrsim 20000$ K with an outward increasing temperature gradient. The electron density map exhibits an inverse relationship, with central values reaching $N_e\sim 4000$ cm–3 for the broad component decreasing to $N_e\sim 100$ cm–3 towards the edges of the field of view. Using BPT diagrams, we found that all spaxels are consistent with both active galactic nucleus (AGN) and shock ionization. However, when this information is combined with our kinematic and temperature findings, and further supported by the WHAN diagram, we argue that an AGN is the dominant ionization mechanism in the central region of NGC 6868, while the extended outer component is ionized by a combination of hot low-mass evolved stars and shocks. According to our findings, shocks play a significant role in the ionization balance of this galaxy.

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Digging deeper into NGC 6868 II: ionized gas and excitation mechanism

Benedetti,

Riffel,

Ricci

et al. 2024

Monthly Notices of the Royal Astronomical Society

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Molecular Gas Kinematics in Local Early-Type Galaxies with ALMA

Ruffa,

Davis

2024

Galaxies

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Local early-type galaxies (ETGs) are mostly populated by old stars, with little or no recent star formation activity. For this reason, they have historically been believed to be essentially devoid of cold gas, which is the fuel for the formation of new stars. Over the past two decades, however, increasingly-sensitive instrumentation observing the sky at (sub-)millimetre wavelengths has revealed the presence of significant amounts of cold molecular gas in the hearts of nearby ETGs. The unprecedented capabilities offered by the Atacama Large Millimeter/submillimeter Array (ALMA), in particular, have allowed us to obtain snapshots of the central regions of these ETGs with unprecedented detail, mapping this gas with higher sensitivity and resolution than ever before possible. Studies of the kinematics of the observed cold gas reservoirs are crucial for galaxy formation and evolution theories, providing, e.g., constraints on the fundamental properties and fuelling/feedback processes of super-massive black holes (SMBHs) at the centre of these galaxies. In this brief review, we summarise what the first 10 years of ALMA observations have taught us about the distribution and kinematics of the cold molecular gas component in nearby ellipticals and lenticulars.

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Weak Lensing Analysis of A2390 Using Short Exposures

Dutta,

Peterson,

Rose

et al. 2024

ApJ

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We present a weak lensing analysis of the galaxy cluster A2390 at z = 0.23 using second moment shape measurements made in 411 short 60 s exposures. The exposures are obtained in three broadband photometric filters (g, r, and i) using WIYN-ODI. Shape measurement in individual exposures is done using a moment-matching algorithm. Forced measurement is used when the moment-matching algorithm fails to converge at low signal-to-noise ratio. The measurements made in individual images are combined using inverse error weighting to obtain accurate shapes for the sources and hence recover shear. We use PhoSim simulations to validate the shear measurements recovered by our pipeline. We find the mass of A2390 is in agreement with previously published results. We also find the E-mode maps show filamentary structures consistent with baryonic structures and recover most clusters/groups of galaxies found using optical and X-ray data. Thus, we demonstrate the feasibility of using weak lensing to map large-scale structure of the Universe. We also find the central portion of the cluster has a bimodal mass distribution and the relative orientation of the peaks is similar to X-ray. We discuss earlier research on this galaxy cluster, and show that a late-stage merger accounts for all the observed data.

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Two distinct molecular cloud populations detected in massive galaxies

Cited by 3 publications

References 64 publications

Digging deeper into NGC 6868 II: ionized gas and excitation mechanism

Digging deeper into NGC 6868 II: ionized gas and excitation mechanism

Molecular Gas Kinematics in Local Early-Type Galaxies with ALMA

Weak Lensing Analysis of A2390 Using Short Exposures

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