Pulsars, transients and relativistic astrophysics

Probing the Progenitors of Type Ia Supernovae using Circumstellar Material Interaction Signatures

(2021)

Authors:

Peter Clark, Kate Maguire, Mattia Bulla, Lluís Galbany, Mark Sullivan, Joseph P Anderson, Stephen J Smartt

A new radio census of neutron star X-ray binaries

ArXiv 2107.05286 (2021)

Authors:

J van den Eijnden, N Degenaar, TD Russell, R Wijnands, A Bahramian, JCA Miller-Jones, JV Hernández Santisteban, E Gallo, P Atri, RM Plotkin, TJ Maccarone, G Sivakoff, JM Miller, M Reynolds, DM Russell, D Maitra, CO Heinke, M Armas Padilla, AW Shaw

Rates and delay times of Type Ia supernovae in the Dark Energy Survey

Monthly Notices of the Royal Astronomical Society Oxford University Press (OUP) 506:3 (2021) 3330-3348

Authors:

P Wiseman, M Sullivan, M Smith, C Frohmaier, M Vincenzi, O Graur, B Popovic, P Armstrong, D Brout, TM Davis, L Galbany, SR Hinton, L Kelsey, R Kessler, C Lidman, A Möller, RC Nichol, B Rose, D Scolnic, M Toy, Z Zontou, J Asorey, D Carollo, K Glazebrook, GF Lewis, BE Tucker, TMC Abbott, M Aguena, S Allam, F Andrade-Oliveira, J Annis, D Bacon, E Bertin, D Brooks, E Buckley-Geer, DL Burke, A Carnero Rosell, M Carrasco Kind, J Carretero, M Costanzi, LN da Costa, MES Pereira, S Desai, HT Diehl, P Doel, S Everett, I Ferrero, B Flaugher, P Fosalba, J Frieman, J García-Bellido, E Gaztanaga, T Giannantonio, D Gruen, RA Gruendl, J Gschwend, G Gutierrez, DL Hollowood, K Honscheid, B Hoyle, DJ James, E Krause, K Kuehn, N Kuropatkin, MAG Maia, JL Marshall, P Martini, F Menanteau, R Miquel, R Morgan, RLC Ogando, A Palmese, F Paz-Chinchón, D Petravick, A Pieres, AA Plazas Malagón, AK Romer, E Sanchez, V Scarpine, M Schubnell, S Serrano, I Sevilla-Noarbe, M Soares-Santos, E Suchyta, MEC Swanson, G Tarle, D Thomas, C To, TN Varga, AR Walker, DES Collaboration

Repeated mergers, mass-gap black holes, and formation of intermediate-mass black holes in nuclear star clusters

(2021)

Authors:

Giacomo Fragione, Bence Kocsis, Frederic A Rasio, Joseph Silk

High eccentricities and high masses characterize gravitational-wave captures in galactic nuclei as seen by Earth-based detectors

Monthly Notices of the Royal Astronomical Society Oxford University Press 506:2 (2021) 1665-1696

Authors:

Laszlo Gondan, Bence Kocsis

Abstract:

The emission of gravitational waves (GWs) during single-single close encounters in galactic nuclei (GNs) leads to the formation and rapid merger of highly eccentric stellar-mass black hole (BH) binaries. The distinct distribution of physical parameters makes it possible to statistically distinguish this source population from others. Previous studies determined the expected binary parameter distribution for this source population in single GNs. Here, we take into account the effects of dynamical friction, post-Newtonian corrections, and observational bias to determine the detected sources' parameter distributions from all GNs in the Universe. We find that the total binary mass distribution of detected mergers is strongly tilted towards higher masses. The distribution of initial peak GW frequency is remarkably high between 1 and 70 Hz, ~50 per cent of GW capture sources form above 10 Hz with e ≥ 0.95. The eccentricity when first entering the LIGO/Virgo/KAGRA band satisfies e10 Hz > 0.1 for over 92 per cent of sources and e10 Hz > 0.8 for more than half of the sources. At the point when the pericentre reaches 10GM/c2 the eccentricity satisfies e10M > 0.1 for over ~70 per cent of the sources, making single-single GWcapture events in GNs the most eccentric source population among the currently known stellar-mass binary BH merger channels in our Universe. We identify correlations between total mass, mass ratio, source detection distance, and eccentricities e10 Hz and e10M. The recently measured source parameters of GW190521 lie close to the peak of the theoretical distributions and the estimated escape speed of the host environment is ~7.5 × 103-1.2 × 104 km s-1, making this source a candidate for this astrophysical merger channel.