Galaxy formation and evolution

WISDOM project -- VI. Exploring the relation between supermassive black hole mass and galaxy rotation with molecular gas

(2020)

Authors:

Mark D Smith, Martin Bureau, Timothy A Davis, Michele Cappellari, Lijie Liu, Kyoko Onishi, Satoru Iguchi, Eve V North, Marc Sarzi

The AGN fuelling/feedback cycle in nearby radio galaxies – III. 3D relative orientations of radio jets and CO discs and their interaction

Monthly Notices of the Royal Astronomical Society Oxford University Press 499:4 (2020) 5719-5731

Authors:

Ilaria Ruffa, Robert A Laing, Isabella Prandoni, Rosita Paladino, Paola Parma, Timothy A Davis, Martin Bureau

Abstract:

This is the third paper of a series exploring the multifrequency properties of a sample of eleven nearby low-excitation radio galaxies (LERGs) in the southern sky. We are conducting an extensive study of different galaxy components (stars, dust, warm and cold gas, radio jets) with the aim of better understanding the AGN fuelling/feedback cycle in LERGs. Here, we present new, deep, sub-kpc resolution Karl G. Jansky Very Large Array (JVLA) data for five sample sources at 10 GHz. Coupling these data with previously acquired Atacama Large Millimetre/submillimetre Array (ALMA) CO(2–1) observations and measurements of comparable quality from the literature, we carry out for the first time a full 3D analysis of the relative orientations of jet and disc rotation axes in six FR I LERGs. This analysis shows (albeit with significant uncertainties) that the relative orientation angles span a wide range (≈30○–60○). There is no case where both axes are accurately aligned and there is a marginally significant tendency for jets to avoid the disc plane. Our study also provides further evidence for the presence of a jet-CO disc interaction (already inferred from other observational indicators) in at least one source, NGC 3100. In this case, the limited extent of the radio jets, along with distortions in both the molecular gas and the jet components, suggest that the jets are young, interacting with the surrounding matter and rapidly decelerating.

SDSS-IV MaNGA: The link between bars and the early cessation of star formation in spiral galaxies

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 499:1 (2020) 1116-1125

Authors:

Amelia Fraser-McKelvie, Michael Merrifield, Alfonso Aragón-Salamanca, Thomas Peterken, Katarina Kraljic, Karen Masters, David Stark, Francesca Fragkoudi, Rebecca Smethurst, Nicholas Fraser Boardman, Niv Drory, Richard R Lane

The XXL Survey: XLII. Detection and characterisation of the galaxy population of distant galaxy clusters in the XXL-N/VIDEO field: A tale of variety

Astronomy and Astrophysics EDP Sciences 642 (2020) A124

Authors:

A Trudeau, C Garrel, J Willis, M Pierre, F Gastaldello, L Chiappetti, S Ettori, K Umetsu, C Adami, N Adams, Raa Bowler, L Faccioli, B Haeussler, M Jarvis, E Koulouridis, Jp Le Fevre, F Pacaud, B Poggianti, T Sadibekova

Abstract:

Context. Distant galaxy clusters provide an effective laboratory in which to study galaxy evolution in dense environments and at early cosmic times. Aims. We aim to identify distant galaxy clusters as extended X-ray sources that are coincident with overdensities of characteristically bright galaxies. Methods. We used optical and near-infrared data from the Hyper Suprime-Cam and VISTA Deep Extragalactic Observations (VIDEO) surveys to identify distant galaxy clusters as overdensities of bright, zphot = 0:8 galaxies associated with extended X-ray sources detected in the ultimate XMM extragalactic survey (XXL). Results. We identify a sample of 35 candidate clusters at 0:80 = z = 1:93 from an approximately 4.5 deg2 sky area. This sample includes 15 newly discovered candidate clusters, ten previously detected but unconfirmed clusters, and ten spectroscopically confirmed clusters. Although these clusters host galaxy populations that display a wide variety of quenching levels, they exhibit well-defined relations between quenching, cluster-centric distance, and galaxy luminosity. The brightest cluster galaxies (BCGs) within our sample display colours that are consistent with a bimodal population composed of an old and red sub-sample together with a bluer, more diverse sub-sample. Conclusions The relation between galaxy masses and quenching seem to already be in place at z ~ 1, although there is no significant variation in the quenching fraction with the cluster-centric radius. The BCG bimodality might be explained by the presence of a younger stellar component in some BCGs, but additional data are needed to confirm this scenario.

Modelling burning thermonuclear plasma

Philosophical Transactions A: Mathematical, Physical and Engineering Sciences Royal Society 378:2184 (2020) 20200014

Authors:

Steven J Rose, Peter Hatfield, Robbie HH Scott

Abstract:

Considerable progress towards the achievement of thermonuclear burn using inertial confinement fusion has been achieved at the National Ignition Facility in the USA in the last few years. Other drivers, such as the Z-machine at Sandia, are also making progress towards this goal. A burning thermonuclear plasma would provide a unique and extreme plasma environment; in this paper we discuss (a) different theoretical challenges involved in modelling burning plasmas not currently considered, (b) the use of novel machine learning-based methods that might help large facilities reach ignition, and (c) the connections that a burning plasma might have to fundamental physics, including quantum electrodynamics studies, and the replication and exploration of conditions that last occurred in the first few minutes after the Big Bang.