Galaxy formation and evolution

Electromagnetic transients and gravitational waves from white dwarf disruptions by stellar black holes in triple systems

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) (2020)

Authors:

Giacomo Fragione, Brian D Metzger, Rosalba Perna, Nathan WC Leigh, Bence Kocsis

Abstract:

Mergers of binaries comprised of compact objects can give rise to explosive transient events, heralding the birth of exotic objects which cannot be formed through single star evolution. Using a large number of direct N-body simulations, we explore the possibility that a white dwarf (WD) is dynamically driven to tidal disruption by a stellar-mass black hole (BH) as a consequence of the joint effects of gravitational wave (GW) emission and Lidov-Kozai oscillations imposed by the tidal field of a outer tertiary companion orbiting the inner BH-WD binary. We explore the sensitivity of our results to the distributions of natal kick velocities imparted to the BH and WD upon formation, adiabatic mass loss, semi-major axes and eccentricities of the triples, and stellar mass ratios. We find rates of WD-TDEs in the range $1.2\times 10^{-3}-1.4$ Gpc$^{-3}$ yr$^{-1}$ for $z\leq 0.1$, rarer than stellar TDEs in triples by a factor of $\sim 3$--$30$. The uncertainty in the TDE rates may be greatly reduced in the future using gravitational wave (GW) observations of Galactic binaries and triples with LISA. WD-TDEs may give rise to high energy X-ray or gamma-ray transients of duration similar to long gamma-ray bursts but lacking the signatures of a core-collapse supernova, while being accompanied by a supernova-like optical transient which lasts for only days. WD--BH and WD--NS binaries will also emit GWs in the LISA band before the TDE. The discovery and identification of triple-induced WD-TDE events by future time domain surveys and/or GWs could enable the study of the demographics of BHs in nearby galaxies.

GalICS 2.1: a new semianalytic model for cold accretion, cooling, feedback and their roles in galaxy formation

(2020)

Authors:

Andrea Cattaneo, Ioanna Koutsouridou, Edouard Tollet, Julien Devriendt, Yohan Dubois

Black hole mergers from dwarf to massive galaxies with the NewHorizon and Horizon-AGN simulations

(2020)

Authors:

Marta Volonteri, Hugo Pfister, Ricarda S Beckman, Yohan Dubois, Monica Colpi, Christopher J Conselice, Massimo Dotti, Garreth Martin, Ryan Jackson, Katarina Kraljic, Christophe Pichon, Maxime Trebitsch, Sukyoung K Yi, Julien Devriendt, Sebastien Peirani

The VANDELS survey: a strong correlation between Ly alpha equivalent width and stellar metallicity at 3 <= z <= 5

Monthly Notices of the Royal Astronomical Society Oxford University Press 495:1 (2020) 1501-1510

Authors:

F Cullen, Rj McLure, Js Dunlop, Ac Carnall, Dj McLeod, Ae Shapley, R Amorin, M Bolzonella, M Castellano, A Cimatti, M Cirasuolo, O Cucciati, A Fontana, F Fontanot, B Garilli, L Guaita, Mj Jarvis, L Pentericci, L Pozzetti, M Talia, G Zamorani, A Calabro, G Cresci, Jpu Fynbo, Np Hathi, M Giavalisco, A Koekemoer, F Mannucci, A Saxena

Abstract:

We present the results of a new study investigating the relationship between observed Ly α equivalent width (Wλ(Ly α)) and the metallicity of the ionizing stellar population (Z★) for a sample of 768 star-forming galaxies at 3 ≤ z ≤ 5 drawn from the VANDELS survey. Dividing our sample into quartiles of rest-frame Wλ(Ly α) across the range −58 Å ≾ Wλ(Ly α) ≾ 110 Å, we determine Z★ from full spectral fitting of composite far-ultraviolet spectra and find a clear anticorrelation between Wλ(Ly α) and Z★. Our results indicate that Z★ decreases by a factor ≳ 3 between the lowest Wλ(Ly α) quartile (≺Wλ(Ly α)≻ = −18 Å) and the highest Wλ(Ly α) quartile (≺Wλ(Ly α)≻ = 24 Å). Similarly, galaxies typically defined as Lyman alpha emitters (LAEs; Wλ(Ly α) > 20 Å) are, on average, metal poor with respect to the non-LAE galaxy population (Wλ(Ly α) ≤ 20 Å) with Z★non-LAE ≳ 2 × Z★LAE. Finally, based on the best-fitting stellar models, we estimate that the increasing strength of the stellar ionizing spectrum towards lower Z★ is responsible for ≈15−25 per cent of the observed variation in Wλ(Ly α) across our sample, with the remaining contribution (≈75−85 per cent) being due to a decrease in the H I/dust covering fractions in low- Z★ galaxies.

The e-MERGE Survey (e-MERLIN Galaxy Evolution Survey): overview and survey description

Monthly Notices of the Royal Astronomical Society Royal Astronomical Society 495:1 (2020) 1188-1208

Authors:

Twb Muxlow, Ap Thomson, Jf Radcliffe, Nh Wrigley, Rj Beswick, Ian Smail, Im McHardy, St Garrington, Rj Ivison, Matt Jarvis, I Prandoni, M Bondi, D Guidetti, Mk Argo, David Bacon, Pn Best, Ad Biggs, Sc Chapman, K Coppin, H Chen, Tk Garratt, Ma Garrett, E Ibar, Jean-Paul Kneib, Kirsten K Knudsen, Lve Koopmans, Lk Morabito, Ej Murphy, A Njeri, Chris Pearson, Ma Perez-Torres, Ams Richards, Hja Rottgering, Mt Sargent, Stephen Serjeant, C Simpson, Jm Simpson, Am Swinbank, E Varenius, T Venturi

Abstract:

We present an overview and description of the e-MERGE Survey (e-MERLIN Galaxy Evolution Survey) Data Release 1 (DR1), a large program of high-resolution 1.5-GHz radio observations of the GOODS-N field comprising ∼140 h of observations with enhanced-Multi-Element Remotely Linked Interferometer Network (e-MERLIN) and ∼40 h with the Very Large Array (VLA). We combine the long baselines of e-MERLIN (providing high angular resolution) with the relatively closely packed antennas of the VLA (providing excellent surface brightness sensitivity) to produce a deep 1.5-GHz radio survey with the sensitivity (⁠∼1.5μ Jy beam−1), angular resolution (0.2–0.7 arcsec) and field-of-view (∼15 × 15 arcmin2) to detect and spatially resolve star-forming galaxies and active galactic nucleus (AGN) at z ≳ 1. The goal of e-MERGE is to provide new constraints on the deep, sub-arcsecond radio sky which will be surveyed by SKA1-mid. In this initial publication, we discuss our data analysis techniques, including steps taken to model in-beam source variability over an ∼20-yr baseline and the development of new point spread function/primary beam models to seamlessly merge e-MERLIN and VLA data in the uv plane. We present early science results, including measurements of the luminosities and/or linear sizes of ∼500 galaxies selected at 1.5 GHz. In combination with deep Hubble Space Telescope observations, we measure a mean radio-to-optical size ratio of re-MERGE/rHST ∼ 1.02 ± 0.03, suggesting that in most high-redshift galaxies, the ∼GHz continuum emission traces the stellar light seen in optical imaging. This is the first in a series of papers that will explore the ∼kpc-scale radio properties of star-forming galaxies and AGN in the GOODS-N field observed by e-MERGE DR1.