Litcius/Paper detail

The Impact of Initial–Final Mass Relations on Black Hole Microlensing

Sam Rose, Casey Y. Lam, Jessica R. Lu, Michael S. Medford, Matthew W. Hosek, Natasha S. Abrams, Emily Ramey, Sergiy S. Vasylyev

2022The Astrophysical Journal15 citationsDOIOpen Access PDF

Abstract

Abstract Uncertainty in the initial–final mass relation (IFMR) has long been a problem in understanding the final stages of massive star evolution. One of the major challenges of constraining the IFMR is the difficulty of measuring the mass of nonluminous remnant objects (i.e., neutron stars and black holes). Gravitational-wave detectors have opened the possibility of finding large numbers of compact objects in other galaxies, but all in merging binary systems. Gravitational lensing experiments using astrometry and photometry are capable of finding compact objects, both isolated and in binaries, in the Milky Way. In this work we improve the Population Synthesis for Compact object Lensing Events ( PopSyCLE) microlensing simulation code in order to explore the possibility of constraining the IFMR using the Milky Way microlensing population. We predict that the Roman Space Telescope’s microlensing survey will likely be able to distinguish different IFMRs based on the differences at the long end of the Einstein crossing time distribution and the small end of the microlensing parallax distribution, assuming the small ( π E ≲ 0.02) microlensing parallaxes characteristic of black hole lenses are able to be measured accurately. We emphasize that future microlensing surveys need to be capable of characterizing events with small microlensing parallaxes in order to place the most meaningful constraints on the IFMR.

Topics & Concepts

Gravitational microlensingPhysicsAstrophysicsAstronomyMilky WayMassive compact halo objectGalaxyGravitational lensPopulationBinary black holeBlack hole (networking)Neutron starCompact starGravitational waveStarsBrown dwarfRouting (electronic design automation)Computer networkLink-state routing protocolSociologyComputer scienceRouting protocolRedshiftDemographyStellar, planetary, and galactic studiesPulsars and Gravitational Waves ResearchGamma-ray bursts and supernovae