Dr Thomas Williams

WISDOM project – XIV. SMBH mass in the early-type galaxies NGC 0612, NGC 1574, and NGC 4261 from CO dynamical modelling

Monthly Notices of the Royal Astronomical Society Oxford University Press 522:4 (2023) 6170-6195

Authors:

Ilaria Ruffa, Timothy A Davis, Michele Cappellari, Martin Bureau, Jacob Elford, Satoru Iguchi, Federico Lelli, Fu-Heng Liang, Lijie Liu, Anan Lu, Marc Sarzi, Thomas G Williams

Abstract:

We present a CO dynamical estimate of the mass of the super-massive black hole (SMBH) in three nearby early-type galaxies: NGC 0612, NGC 1574 and NGC 4261. Our analysis is based on Atacama Large Millimeter/submillimeter Array (ALMA) Cycle 3-6 observations of the 12CO(2-1) emission line with spatial resolutions of 14 − 58 pc (0.01″ − 0.26″). We detect disc-like CO distributions on scales from ≲ 200 pc (NGC 1574 and NGC 4261) to ≈10 kpc (NGC 0612). In NGC 0612 and NGC 1574 the bulk of the gas is regularly rotating. The data also provide evidence for the presence of a massive dark object at the centre of NGC 1574, allowing us to obtain the first measure of its mass, MBH = (1.0 ± 0.2) × 108 M⊙ (1σ uncertainty). In NGC 4261, the CO kinematics is clearly dominated by the SMBH gravitational influence, allowing us to determine an accurate black hole mass of (1.62 ± 0.04) × 109 M⊙ (1σ uncertainty). This is fully consistent with a previous CO dynamical estimate obtained using a different modelling technique. Signs of non-circular gas motions (likely outflow) are also identified in the inner regions of NGC 4261. In NGC 0612, we are only able to obtain a (conservative) upper limit of MBH ≲ 3.2 × 109 M⊙. This has likely to be ascribed to the presence of a central CO hole (with a radius much larger than that of the SMBH sphere of influence), combined with the inability of obtaining a robust prediction for the CO velocity curve. The three SMBH mass estimates are overall in agreement with predictions from the MBH − σ* relation.

Stellar associations powering H ii regions – I. Defining an evolutionary sequence

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 522:2 (2023) 2369-2383

Authors:

Fabian Scheuermann, Kathryn Kreckel, Ashley T Barnes, Francesco Belfiore, Brent Groves, Stephen Hannon, Janice C Lee, Rebecca Minsley, Erik Rosolowsky, Frank Bigiel, Guillermo A Blanc, Médéric Boquien, Daniel A Dale, Sinan Deger, Oleg V Egorov, Eric Emsellem, Simon CO Glover, Kathryn Grasha, Hamid Hassani, Sarah MR Jeffreson, Ralf S Klessen, JM Diederik Kruijssen, Kirsten L Larson, Adam K Leroy, Laura A Lopez, Hsi-An Pan, Patricia Sánchez-Blázquez, Francesco Santoro, Eva Schinnerer, David A Thilker, Bradley C Whitmore, Elizabeth J Watkins, Thomas G Williams

Erratum: Molecular Gas Properties on Cloud Scales across the Local Star-forming Galaxy Population (ApJL (2020)901 (L8) DOI: 10.3847/2041-8213/abb3be)

Astrophysical Journal Letters 946:2 (2023)

Authors:

J Sun, AK Leroy, E Schinnerer, A Hughes, E Rosolowsky, M Querejeta, A Schruba, D Liu, T Saito, CN Herrera, C Faesi, A Usero, J Pety, JMD Kruijssen, EC Ostriker, F Bigiel, GA Blanc, AD Bolatto, M Boquien, M Chevance, DA Dale, S Deger, E Emsellem, SCO Glover, K Grasha, B Groves, J Henshaw, MJ Jimenez-Donaire, JJ Kim, RS Klessen, K Kreckel, JC Lee, S Meidt, K Sandstrom, AE Sardone, D Utomo, TG Williams

Abstract:

In the published article, the prefactor in Equation (3) was incorrectly written as 3.3 × 104 as opposed to 3.3 × 105. The correct equation should be. This was a typo and did not propagate into or affect any quantitative results of the paper.

The ALMOND survey: molecular cloud properties and gas density tracers across 25 nearby spiral galaxies with ALMA

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 521:3 (2023) 3348-3383

Authors:

Lukas Neumann, Molly J Gallagher, Frank Bigiel, Adam K Leroy, Ashley T Barnes, Antonio Usero, Jakob S den Brok, Francesco Belfiore, Ivana Bešlić, Yixian Cao, Mélanie Chevance, Daniel A Dale, Cosima Eibensteiner, Simon CO Glover, Kathryn Grasha, Jonathan D Henshaw, María J Jiménez-Donaire, Ralf S Klessen, JM Diederik Kruijssen, Daizhong Liu, Sharon Meidt, Jérôme Pety, Johannes Puschnig, Miguel Querejeta, Erik Rosolowsky, Eva Schinnerer, Andreas Schruba, Mattia C Sormani, Jiayi Sun, Yu-Hsuan Teng, Thomas G Williams

Improving Star Cluster Age Estimates in PHANGS-HST Galaxies and the Impact on Cluster Demographics in NGC 628

Monthly Notices of the Royal Astronomical Society 520:1 (2023) 63-88

Authors:

BC Whitmore, R Chandar, JC Lee, M Floyd, S Deger, J Lilly, R Minsley, DA Thilker, M Boquien, DA Dale, K Henny, F Scheuermann, AT Barnes, F Bigiel, E Emsellem, S Glover, K Grasha, B Groves, S Hannon, RS Klessen, K Kreckel, JMD Kruijssen, KL Larson, A Leroy, A Mok, HA Pan, F Pinna, P Sánchez-Blázquez, E Schinnerer, MC Sormani, E Watkins, T Williams

Abstract:

A long-standing problem when deriving the physical properties of stellar populations is the degeneracy between age, reddening, and metallicity. When a single metallicity is used for all the star clusters in a galaxy, this degeneracy can result in ‘catastrophic’ errors for old globular clusters. Typically, approximately 10–20 per cent of all clusters detected in spiral galaxies can have ages that are incorrect by a factor of 10 or more. In this paper, we present a pilot study for four galaxies (NGC 628, NGC 1433, NGC 1365, and NGC 3351) from the PHANGS-HST survey. We describe methods to correct the age-dating for old globular clusters, by first identifying candidates using their colours, and then reassigning ages and reddening based on a lower metallicity solution. We find that young ‘Interlopers’ can be identified from their Hα flux. CO (2-1) intensity or the presence of dust can also be used, but our tests show that they do not work as well. Improvements in the success fraction are possible at the ≈15 per cent level (reducing the fraction of catastrophic age-estimates from between 13 and 21 per cent, to between 3 and 8 per cent). A large fraction of the incorrectly age-dated globular clusters are systematically given ages around 100 Myr, polluting the younger populations as well. Incorrectly age-dated globular clusters significantly impact the observed cluster age distribution in NGC 628, which affects the physical interpretation of cluster disruption in this galaxy. For NGC 1365, we also demonstrate how to fix a second major age-dating problem, where very dusty young clusters with E(B − V) > 1.5 mag are assigned old, globular-cluster like ages. Finally, we note the discovery of a dense population of ≈300 Myr clusters around the central region of NGC 1365 and discuss how this results naturally from the dynamics in a barred galaxy.