Galaxy formation and evolution

Constraining Stellar-mass Black Hole Mergers in AGN Disks Detectable with LIGO

ASTROPHYSICAL JOURNAL American Astronomical Society 866:1 (2018) ARTN 66

Authors:

Barry McKernan, KE Saavik Ford, J Bellovary, Nwc Leigh, Z Haiman, B Kocsis, W Lyra, M-M Mac Low, B Metzger, M O'Dowd, S Endlich, Dj Rosen

Abstract:

© 2018. The American Astronomical Society. All rights reserved.. Black hole (BH) mergers detectable with the Laser Interferometer Gravitational-wave Observatory (LIGO) can occur in active galactic nucleus (AGN) disks. Here we parameterize the merger rates, the mass spectrum, and the spin spectrum of BHs in AGN disks. The predicted merger rate spans ∼10-3-104 Gpc-1 yr-1, so upper limits from LIGO (<212 Gpc-1 yr-1) already constrain it. The predicted mass spectrum has the form of a broken power law, consisting of a pre-existing BH power-law mass spectrum and a harder power-law mass spectrum resulting from mergers. The predicted spin spectrum is multipeaked with the evolution of retrograde spin BHs in the gas disk playing a key role. We outline the large uncertainties in each of these LIGO observables for this channel and we discuss ways in which they can be constrained in the future.

Galaxies flowing in the oriented saddle frame of the cosmic web

(2018)

Authors:

K Kraljic, C Pichon, Y Dubois, S Codis, C Cadiou, J Devriendt, M Musso, C Welker, S Arnouts, HS Hwang, C Laigle, S Peirani, A Slyz, M Treyer, D Vibert

KiDS-SQuaD: The KiDS Strongly lensed Quasar Detection project

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 480:1 (2018) 1163-1173

Authors:

C Spiniello, A Agnello, NR Napolitano, AV Sergeyev, FI Getman, C Tortora, M Spavone, M Bilicki, H Buddelmeijer, LVE Koopmans, K Kuijken, G Vernardos, E Bannikova, M Capaccioli

PAHs as tracers of the molecular gas in star-forming galaxies

(2018)

Authors:

I Cortzen, J Garrett, G Magdis, D Rigopoulou, F Valentino, M Pereira-Santaella, F Combes, A Alonso-Herrero, S Toft, E Daddi, D Elbaz, C Gómez-Guijarro, M Stockmann, J Huang, C Kramer

The dispersion-brightness relation for fast radio bursts from a wide-field survey

Nature Springer Nature 562 (2018) 386-390

Authors:

RM Shannon, J-P Macquart, KW Bannister, RD Ekers, CW James, S Osłowski, H Qiu, M Sammons, AW Hotan, MA Voronkov, RJ Beresford, M Brothers, AJ Brown, JD Bunton, AP Chippendale, C Haskins, M Leach, M Marquarding, D McConnell, MA Pilawa, EM Sadler, ER Troup, J Tuthill, MT Whiting, James Allison, CS Anderson, ME Bell, JD Collier, G Gürkan, G Heald, CJ Riseley

Abstract:

Despite considerable efforts over the past decade, only 34 fast radio bursts-intense bursts of radio emission from beyond our Galaxy-have been reported1,2. Attempts to understand the population as a whole have been hindered by the highly heterogeneous nature of the searches, which have been conducted with telescopes of different sensitivities, at a range of radio frequencies, and in environments corrupted by different levels of radio-frequency interference from human activity. Searches have been further complicated by uncertain burst positions and brightnesses-a consequence of the transient nature of the sources and the poor angular resolution of the detecting instruments. The discovery of repeating bursts from one source3, and its subsequent localization4 to a dwarf galaxy at a distance of 3.7 billion light years, confirmed that the population of fast radio bursts is located at cosmological distances. However, the nature of the emission remains elusive. Here we report a well controlled, wide-field radio survey for these bursts. We found 20, none of which repeated during follow-up observations between 185-1,097 hours after the initial detections. The sample includes both the nearest and the most energetic bursts detected so far. The survey demonstrates that there is a relationship between burst dispersion and brightness and that the high-fluence bursts are the nearby analogues of the more distant events found in higher-sensitivity, narrower-field surveys5.