We present a novel theoretical model to characterize the formation and coalescence sites of compact binaries in a cosmological context. This is based on the coupling between the binary population synthesis code SeBa with a simulation following the formation of a Milky Waylike halo in a well-resolved cosmic volume of 4 cMpc, performed with the GAMESH pipeline. We have applied this technique to investigate when and where systems with properties similar to the recently observed LIGO/VIRGO events are more likely to form and where they are more likely to reside when they coalesce. We find that more than 70 per cent of GW151226 and LVT151012-like systems form in galaxies with stellarmassM* > 108M⊙ in the redshift range [0.06-3] and [0.14-11.3], respectively. All GW150914-like systems form in low-metallicity dwarfs with M* < 5 × 106M⊙ at 2.4 ≤ z ≤ 4.2. Despite these initial differences, by the time they reach coalescence the observed events are most likely hosted by star-forming galaxies with M* > 1010M⊙. Due to tidal stripping and radiative feedback, a non-negligible fraction of GW150914-like candidates end-up in galaxies with properties similar to dwarf spheroidals and ultrafaint satellites.
The formation and coalescence sites of the first gravitational wave events / Schneider, R.; Graziani, L.; Marassi, S.; Spera, M.; Mapelli, M.; Alparone, M.; de Bennassuti, M.. - In: MONTHLY NOTICES OF THE ROYAL ASTRONOMICAL SOCIETY. LETTERS. - ISSN 1745-3925. - 471:1(2017), pp. L105-L109. [10.1093/mnrasl/slx118]
The formation and coalescence sites of the first gravitational wave events
Spera M.;
2017-01-01
Abstract
We present a novel theoretical model to characterize the formation and coalescence sites of compact binaries in a cosmological context. This is based on the coupling between the binary population synthesis code SeBa with a simulation following the formation of a Milky Waylike halo in a well-resolved cosmic volume of 4 cMpc, performed with the GAMESH pipeline. We have applied this technique to investigate when and where systems with properties similar to the recently observed LIGO/VIRGO events are more likely to form and where they are more likely to reside when they coalesce. We find that more than 70 per cent of GW151226 and LVT151012-like systems form in galaxies with stellarmassM* > 108M⊙ in the redshift range [0.06-3] and [0.14-11.3], respectively. All GW150914-like systems form in low-metallicity dwarfs with M* < 5 × 106M⊙ at 2.4 ≤ z ≤ 4.2. Despite these initial differences, by the time they reach coalescence the observed events are most likely hosted by star-forming galaxies with M* > 1010M⊙. Due to tidal stripping and radiative feedback, a non-negligible fraction of GW150914-like candidates end-up in galaxies with properties similar to dwarf spheroidals and ultrafaint satellites.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
