Your search keyword '"Willcox, Reinhold"' showing total 19 results

1. A Trifecta of Modelling Tools: A Bayesian Binary Black Hole Model Selection combining Population Synthesis and Galaxy Formation Models

Author

Rauf, Liana, Howlett, Cullan, Stevenson, Simon, Riley, Jeff, and Willcox, Reinhold

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics, General Relativity and Quantum Cosmology

Abstract

Gravitational waves (GWs) have revealed surprising properties of binary black hole (BBH) populations, but there is still mystery surrounding how these compact objects evolve. We apply Bayesian inference and an efficient method to calculate the BBH merger rates in the Shark host galaxies, to determine the combination of COMPAS parameters that outputs a population most like the GW sources from the LVK transient catalogue. For our COMPAS models, we calculate the likelihood with and without the dependence on the predicted number of BBH merger events. We find strong correlations between hyper-parameters governing the specific angular momentum (AM) of mass lost during mass transfer, the mass-loss rates of Wolf-Rayet stars via winds and the chemically homogeneous evolution (CHE) formation channel. We conclude that analysing the marginalised and unmarginalised likelihood is a good indicator of whether the population parameters distribution and number of observed events reflect the LVK data. In doing so, we see that the majority of the models preferred in terms of the population-level parameters of the BBHs greatly overpredict the number of events we should have observed to date. Looking at the smaller number of models which perform well with both likelihoods, we find that those with no CHE, AM loss occurring closer to the donor during the first mass-transfer event, and/or higher rates of mass-loss from Wolf-Rayet winds are generally preferred by current data. We find these conclusions to be robust to our choice of selection criteria., Comment: 27 pages, 19 figures, 6 tables, Accepted by MNRAS

Published

2024

2. Constraints on neutrino natal kicks from black-hole binary VFTS 243

Author

Vigna-Gómez, Alejandro, Willcox, Reinhold, Tamborra, Irene, Mandel, Ilya, Renzo, Mathieu, Wagg, Tom, Janka, Hans-Thomas, Kresse, Daniel, Bodensteiner, Julia, Shenar, Tomer, and Tauris, Thomas M.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics

Abstract

The recently reported observation of VFTS 243 is the first example of a massive black-hole binary system with negligible binary interaction following black-hole formation. The black-hole mass ($\approx 10\ M_{\odot}$) and near-circular orbit ($e\approx 0.02$) of VFTS 243 suggest that the progenitor star experienced complete collapse, with energy-momentum being lost predominantly through neutrinos. VFTS 243 enables us to constrain the natal kick and neutrino-emission asymmetry during black-hole formation. At 68% C.L., the natal kick velocity (mass decrement) is $\lesssim 10$ km/s ($\lesssim 1.0\ M_{\odot}$), with a full probability distribution that peaks when $\approx 0.3\ M_{\odot}$ were ejected, presumably in neutrinos, and the black hole experienced a natal kick of $4$ km/s. The neutrino-emission asymmetry is $\lesssim 4$%, with best fit values of $\sim$0-0.2%. Such a small neutrino natal kick accompanying black-hole formation is in agreement with theoretical predictions., Comment: 15 pages (including supplemental material), 2 main figures and 5 supplemental figures. Accepted for publication in PRL

Published

2023

3. The Impact of Angular Momentum Loss on the Outcomes of Binary Mass Transfer

Author

Willcox, Reinhold, MacLeod, Morgan, Mandel, Ilya, and Hirai, Ryosuke

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

We use the rapid binary population synthesis code COMPAS to investigate commonly used prescriptions for the determination of mass transfer stability in close binaries and the orbital separations after stable mass transfer. The degree of orbital tightening during non-conservative mass transfer episodes is governed by the poorly-constrained angular momentum carried away by the ejected material. Increased orbital tightening drives systems towards unstable mass transfer leading to a common envelope. We find that the fraction of interacting binaries that will undergo only stable mass transfer throughout their lives fluctuates between a few and $\sim 20\%$ due to uncertainty in the angular momentum loss alone. If mass transfer is significantly non-conservative, stability prescriptions that rely on the assumption of conservative mass transfer under-predict the number of systems which experience unstable mass transfer and stellar mergers. This may substantially impact predictions about the rates of various transients, including luminous red novae, stripped-envelope supernovae, X-ray binaries, and the progenitors of coalescing compact binaries., Comment: 16 pages, 7 figures

Published

2023

4. Rapid population synthesis of black-hole high-mass X-ray binaries: implications for binary stellar evolution

Author

Romero-Shaw, Isobel M., Hirai, Ryosuke, Bahramian, Arash, Willcox, Reinhold, and Mandel, Ilya

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

We conduct binary population synthesis to investigate the formation of wind-fed high-mass X-ray binaries containing black holes (BH-HMXBs). We evolve multiple populations of high-mass binary stars and consider BH-HMXB formation rates, masses, spins and separations. We find that systems similar to Cygnus X-1 likely form after stable Case A mass transfer (MT) from the main sequence progenitors of black holes, provided such MT is characterised by low accretion efficiency, $\beta \lesssim 0.1$, with modest orbital angular momentum losses from the non-accreted material. Additionally, efficient BH-HMXB formation relies on a new simple treatment for Case A MT that allows donors to retain larger core masses compared to traditional rapid population-synthesis assumptions. At solar metallicity, our Preferred model yields $\mathcal{O}(1)$ observable BH-HMXBs in the Galaxy today, consistent with observations. In this simulation, $8\%$ of BH-HMXBs go on to merge as binary black holes or neutron star-black hole binaries within a Hubble time; however, none of the merging binaries have BH-HMXB progenitors with properties similar to Cygnus X-1. With our preferred settings for core mass growth, mass transfer efficiency and angular momentum loss, accounting for an evolving metallicity, and integrating over the metallicity-specific star formation history of the Universe, we find that BH-HMXBs may have contributed $\approx2$--$5$ BBH merger signals to detections reported in the third gravitational-wave transient catalogue of the LIGO-Virgo-KAGRA Collaboration. We also suggest MT efficiency should be higher during stable Case B MT than during Case A MT., Comment: 17 pages, 10 figures

Published

2023

5. An Observationally-Derived Kick Distribution for Neutron Stars in Binary Systems

Author

O'Doherty, Tyrone N., Bahramian, Arash, Miller-Jones, James C. A., Goodwin, Adelle J., Mandel, Ilya, Willcox, Reinhold, Atri, Pikky, and Strader, Jay

Subjects

Astrophysics - High Energy Astrophysical Phenomena

Abstract

Understanding the natal kicks received by neutron stars (NSs) during formation is a critical component of modelling the evolution of massive binaries. Natal kicks are an integral input parameter for population synthesis codes, and have implications for the formation of double NS systems and their subsequent merger rates. However, many of the standard observational kick distributions that are used are obtained from samples created only from isolated NSs. Kick distributions derived in this way overestimate the intrinsic NS kick distribution. For NSs in binaries, we can only directly estimate the effect of the natal kick on the binary system, instead of the natal kick received by the NS itself. Here, for the first time, we present a binary kick distribution for NSs with low-mass companions. We compile a catalogue of 145 NSs in low-mass binaries with the best available constraints on proper motion, distance, and systemic radial velocity. For each binary, we use a three-dimensional approach to estimate its binary kick. We discuss the implications of these kicks on system formation, and provide a parametric model for the overall binary kick distribution, for use in future theoretical modelling work. We compare our results with other work on isolated NSs and NSs in binaries, finding that the NS kick distributions fit using only isolated pulsars underestimate the fraction of NSs that receive low kicks. We discuss the implications of our results on modelling double NS systems, and provide suggestions on how to use our results in future theoretical works., Comment: Accepted for publication in MNRAS. 28 pages, 19 figures, 8 tables

Published

2023

6. Wide binary pulsars from electron-capture supernovae

Author

Stevenson, Simon, Willcox, Reinhold, Vigna-Gomez, Alejandro, and Broekgaarden, Floor

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics

Abstract

Neutron stars receive velocity kicks at birth in supernovae. Those formed in electron-capture supernovae from super asymptotic giant branch stars -- the lowest mass stars to end their lives in supernovae -- may receive significantly lower kicks than typical neutron stars. Given that many massive stars are members of wide binaries, this suggests the existence of a population of low-mass ($1.25 < M_\mathrm{psr} / $M$_\odot < 1.3$), wide ($P_\mathrm{orb} \gtrsim 10^{4}$\,day), eccentric ($e \sim 0.7$), unrecycled ($P_\mathrm{spin} \sim 1$\,s) binary pulsars. The formation rate of such binaries is sensitive to the mass range of (effectively) single stars leading to electron capture supernovae, the amount of mass lost prior to the supernova, and the magnitude of any natal kick imparted on the neutron star. We estimate that one such binary pulsar should be observable in the Milky Way for every 10,000 isolated pulsars, assuming that the width of the mass range of single stars leading to electron-capture supernovae is $\lesssim 0.2$\,M$_\odot$, and that neutron stars formed in electron-capture supernovae receive typical kicks less than 10\,km s$^{-1}$. We have searched the catalog of observed binary pulsars, but find no convincing candidates that could be formed through this channel, consistent with this low predicted rate. Future observations with the Square Kilometre Array may detect this rare sub-class of binary pulsar and provide strong constraints on the properties of electron-capture supernovae and their progenitors., Comment: Accepted to MNRAS. 7 pages, 2 figures

Published

2022

7. Rapid stellar and binary population synthesis with COMPAS

Author

COMPAS, Team, Riley, Jeff, Agrawal, Poojan, Barrett, Jim W., Boyett, Kristan N. K., Broekgaarden, Floor S., Chattopadhyay, Debatri, Gaebel, Sebastian M., Gittins, Fabian, Hirai, Ryosuke, Howitt, George, Justham, Stephen, Khandelwal, Lokesh, Kummer, Floris, Lau, Mike Y. M., Mandel, Ilya, de Mink, Selma E., Neijssel, Coenraad, Riley, Tim, van Son, Lieke, Stevenson, Simon, Vigna-Gomez, Alejandro, Vinciguerra, Serena, Wagg, Tom, and Willcox, Reinhold

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics

Abstract

Compact Object Mergers: Population Astrophysics and Statistics (COMPAS; https://compas.science) is a public rapid binary population synthesis code. COMPAS generates populations of isolated stellar binaries under a set of parametrized assumptions in order to allow comparisons against observational data sets, such as those coming from gravitational-wave observations of merging compact remnants. It includes a number of tools for population processing in addition to the core binary evolution components. COMPAS is publicly available via the github repository https://github.com/TeamCOMPAS/COMPAS/, and is designed to allow for flexible modifications as evolutionary models improve. This paper describes the methodology and implementation of COMPAS. It is a living document which will be updated as new features are added to COMPAS; the current document describes COMPAS v02.21.00., Comment: Code publicly available via https://compas.science . Minor updates to match version accepted to ApJS

Published

2021

8. Constraints on Weak Supernova Kicks from Observed Pulsar Velocities

Author

Willcox, Reinhold, Mandel, Ilya, Thrane, Eric, Deller, Adam, Stevenson, Simon, and Vigna-Gómez, Alejandro

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics

Abstract

Observations of binary pulsars and pulsars in globular clusters suggest that at least some pulsars must receive weak natal kicks at birth. If all pulsars received strong natal kicks above \unit[50]{\kms}, those born in globular clusters would predominantly escape, while wide binaries would be disrupted. On the other hand, observations of transverse velocities of isolated radio pulsars indicate that only $5\pm2\%$ have velocities below \unit[50]{\kms}. We explore this apparent tension with rapid binary population synthesis modelling. We propose a model in which supernovae with characteristically low natal kicks (e.g., electron-capture supernovae) only occur if the progenitor star has been stripped via binary interaction with a companion. We show that this model naturally reproduces the observed pulsar speed distribution and without reducing the predicted merging double neutron star yield. We estimate that the zero-age main sequence mass range for non-interacting progenitors of electron-capture supernovae should be no wider than ${\approx}0.2 M_\odot$., Comment: 7 pages including figures, tables, and references. 3 figures including 5 pdfs, and 1 table

Published

2021

9. Fallback supernova assembly of heavy binary neutron stars and light black hole-neutron star pairs and the common stellar ancestry of GW190425 and GW200115

Author

Vigna-Gómez, Alejandro, Schrøder, Sophie L., Ramirez-Ruiz, Enrico, Aguilera-Dena, David R., Batta, Aldo, Langer, Norbert, and Willcox, Reinhold

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Solar and Stellar Astrophysics

Abstract

The detection of the unusually heavy binary neutron star merger GW190425 marked a stark contrast to the mass distribution from known Galactic pulsars in double neutron star binaries and gravitational-wave source GW170817. We suggest here a formation channel for heavy binary neutron stars and light black hole - neutron star binaries in which massive helium stars, which had their hydrogen envelope removed during a common envelope phase, remain compact and avoid mass transfer onto the neutron star companion, possibly avoiding pulsar recycling. We present three-dimensional simulations of the supernova explosion of the massive stripped helium star and follow the mass fallback evolution and the subsequent accretion onto the neutron star companion. We find that fallback leads to significant mass growth in the newly formed neutron star. This can explain the formation of heavy binary neutron star systems such as GW190425, as well as predict the assembly of light black hole - neutron star systems such as GW200115. This formation avenue is consistent with the observed mass-eccentricity correlation of binary neutron stars in the Milky Way. Finally, avoiding mass transfer suggests an unusually long spin-period population of pulsar binaries in our Galaxy., Comment: 7 main pages, 3 main figures, plus appendices. Accepted for publication in ApJ Letters

Published

2021

10. Constraints on Neutrino Natal Kicks from Black-Hole Binary VFTS 243

Author

Vigna-Gómez, Alejandro, Willcox, Reinhold, Tamborra, Irene, Mandel, Ilya, Renzo, Mathieu, Wagg, Tom, Janka, Thomas, Kresse, Daniel, Bodensteiner, Julia, Shenar, Tomer, Tauris, Thomas, Vigna-Gómez, Alejandro, Willcox, Reinhold, Tamborra, Irene, Mandel, Ilya, Renzo, Mathieu, Wagg, Tom, Janka, Thomas, Kresse, Daniel, Bodensteiner, Julia, Shenar, Tomer, and Tauris, Thomas

Published

2024

11. An observationally derived kick distribution for neutron stars in binary systems

Author

O’Doherty, Tyrone N, primary, Bahramian, Arash, additional, Miller-Jones, James C A, additional, Goodwin, Adelle J, additional, Mandel, Ilya, additional, Willcox, Reinhold, additional, Atri, Pikky, additional, and Strader, Jay, additional

Published

2023

12. Rapid population synthesis of black hole high-mass X-ray binaries: implications for binary stellar evolution.

Author

Romero-Shaw, Isobel, Hirai, Ryosuke, Bahramian, Arash, Willcox, Reinhold, and Mandel, Ilya

Subjects

STELLAR evolution, BLACK holes, X-ray binaries, BINARY black holes, HIGH mass stars, PHYSICAL cosmology

Abstract

We conduct binary population synthesis to investigate the formation of wind-fed high-mass X-ray binaries containing black holes (BH-HMXBs). We evolve multiple populations of high-mass binary stars and consider BH-HMXB formation rates, masses, spins, and separations. We find that systems similar to Cygnus X-1 likely form after stable Case A mass transfer (MT) from the main-sequence progenitors of BHs, provided such MT is characterized by low accretion efficiency, β ≲ 0.1, with modest orbital angular momentum losses from the non-accreted material. Additionally, efficient BH-HMXB formation relies on a new simple treatment for Case A MT that allows donors to retain larger core masses compared to traditional rapid population-synthesis assumptions. At solar metallicity, our Preferred model yields |$\mathcal {O}(1)$| observable BH-HMXBs in the Galaxy today, consistent with observations. In this simulation, 8  per cent of BH-HMXBs go on to merge as binary black holes or neutron star-black hole binaries within a Hubble time; however, none of the merging binaries have BH-HMXB progenitors with properties similar to Cygnus X-1. With our preferred settings for core mass growth, mass transfer efficiency, and angular momentum loss, accounting for an evolving metallicity, and integrating over the metallicity-specific star formation history of the Universe, we find that BH-HMXBs may have contributed ≈2–5 BBH merger signals to detections reported in the third gravitational-wave transient catalogue of the LIGO–Virgo–KAGRA Collaboration. We also suggest MT efficiency should be higher during stable Case B MT than during Case A MT. [ABSTRACT FROM AUTHOR]

Published

2023

13. Rapid Stellar and Binary Population Synthesis with COMPAS

Author

Riley, Jeff, Agrawal, P., Barrett, Jim W., Boyett, KNK, Broekgaarden, Floor S., Chattopadhyay, Debarati, Gaebel, Sebastian M., Gittins, Fabian, Hirai, Ryosuke, Howitt, George, Justham, Stephen, Khandelwal, Lokesh, Kummer, Florian, Lau, Mike Y. M., Mandel, Ilya, de Mink, Selma E., Neijssel, Coenraad J., Riley, Tim, van Son, Lieke, Stevenson, S., Vigna Gomez, Alejandro, Vinciguerra, S., Wagg, Tom, Willcox, Reinhold, Riley, Jeff, Agrawal, P., Barrett, Jim W., Boyett, KNK, Broekgaarden, Floor S., Chattopadhyay, Debarati, Gaebel, Sebastian M., Gittins, Fabian, Hirai, Ryosuke, Howitt, George, Justham, Stephen, Khandelwal, Lokesh, Kummer, Florian, Lau, Mike Y. M., Mandel, Ilya, de Mink, Selma E., Neijssel, Coenraad J., Riley, Tim, van Son, Lieke, Stevenson, S., Vigna Gomez, Alejandro, Vinciguerra, S., Wagg, Tom, and Willcox, Reinhold

Published

2022

14. An observationally derived kick distribution for neutron stars in binary systems.

Author

O'Doherty, Tyrone N, Bahramian, Arash, Miller-Jones, James C A, Goodwin, Adelle J, Mandel, Ilya, Willcox, Reinhold, Atri, Pikky, and Strader, Jay

Subjects

DISTRIBUTION of stars, BINARY stars, PULSARS, PARAMETERS (Statistics), PARAMETRIC modeling

Abstract

Understanding the natal kicks received by neutron stars (NSs) during formation is a critical component of modelling the evolution of massive binaries. Natal kicks are an integral input parameter for population synthesis codes, and have implications for the formation of double NS systems and their subsequent merger rates. However, many of the standard observational kick distributions that are used are obtained from samples created only from isolated NSs. Kick distributions derived in this way overestimate the intrinsic NS kick distribution. For NSs in binaries, we can only directly estimate the effect of the natal kick on the binary system, instead of the natal kick received by the NS itself. Here, for the first time, we present a binary kick distribution for NSs with low-mass companions. We compile a catalogue of 145 NSs in low-mass binaries with the best available constraints on proper motion, distance, and systemic radial velocity. For each binary, we use a three-dimensional approach to estimate its binary kick. We discuss the implications of these kicks on system formation, and provide a parametric model for the overall binary kick distribution, for use in future theoretical modelling work. We compare our results with other work on isolated NSs and NSs in binaries, finding that the NS kick distributions fit using only isolated pulsars underestimate the fraction of NSs that receive low kicks. We discuss the implications of our results on modelling double NS systems, and provide suggestions on how to use our results in future theoretical works. [ABSTRACT FROM AUTHOR]

Published

2023

15. Wide binary pulsars from electron-capture supernovae

Author

Stevenson, Simon, primary, Willcox, Reinhold, additional, Vigna-Gómez, Alejandro, additional, and Broekgaarden, Floor, additional

Published

2022

16. Rapid Stellar and Binary Population Synthesis with COMPAS

Author

Riley, Jeff, additional, Agrawal, Poojan, additional, Barrett, Jim W., additional, Boyett, Kristan N. K., additional, Broekgaarden, Floor S., additional, Chattopadhyay, Debatri, additional, Gaebel, Sebastian M., additional, Gittins, Fabian, additional, Hirai, Ryosuke, additional, Howitt, George, additional, Justham, Stephen, additional, Khandelwal, Lokesh, additional, Kummer, Floris, additional, Lau, Mike Y. M., additional, Mandel, Ilya, additional, de Mink, Selma E., additional, Neijssel, Coenraad, additional, Riley, Tim, additional, van Son, Lieke, additional, Stevenson, Simon, additional, Vigna-Gómez, Alejandro, additional, Vinciguerra, Serena, additional, Wagg, Tom, additional, and Willcox, Reinhold, additional

Published

2022

17. COMPAS: A rapid binary population synthesis suite

Author

Compas, Team, primary, Riley, Jeff, additional, Agrawal, Poojan, additional, Barrett, Jim, additional, Boyett, Kristian, additional, Broekgaarden, Floor, additional, Chattopadhyay, Debatri, additional, Gaebel, Sebastian, additional, Gittins, Fabian, additional, Hirai, Ryosuke, additional, Howitt, George, additional, Justham, Stephen, additional, Khandelwal, Lokesh, additional, Kummer, Floris, additional, Lau, Mike, additional, Mandel, Ilya, additional, de Mink, Selma, additional, Neijssel, Coenraad, additional, Riley, Tim, additional, van Son, Lieke, additional, Stevenson, Simon, additional, Vigna-Gómez, Alejandro, additional, Vinciguerra, Serena, additional, Wagg, Tom, additional, and Willcox, Reinhold, additional

Published

2022

18. Constraints on Weak Supernova Kicks from Observed Pulsar Velocities

Author

Willcox, Reinhold, primary, Mandel, Ilya, additional, Thrane, Eric, additional, Deller, Adam, additional, Stevenson, Simon, additional, and Vigna-Gómez, Alejandro, additional

Published

2021

19. Fallback Supernova Assembly of Heavy Binary Neutron Stars and Light Black Hole–Neutron Star Pairs and the Common Stellar Ancestry of GW190425 and GW200115

Author

Vigna-Gómez, Alejandro, primary, Schrøder, Sophie L., additional, Ramirez-Ruiz, Enrico, additional, Aguilera-Dena, David R., additional, Batta, Aldo, additional, Langer, Norbert, additional, and Willcox, Reinhold, additional

Published

2021