# Constraining the masses of microlensing black holes and the mass gap   with Gaia DR2

**Authors:** {\L}ukasz Wyrzykowski, Ilya Mandel

arXiv: 1904.07789 · 2020-04-14

## TL;DR

This study enhances microlensing black hole mass estimates using Gaia DR2 data, finding no clear mass gap between neutron stars and black holes, and identifying candidates within the proposed gap, informing supernova models.

## Contribution

It improves mass estimates of microlensing events with Gaia data and challenges the existence of a mass gap between neutron stars and black holes.

## Key findings

- Mass distribution of dark lenses is continuous.
- No strong evidence for a mass gap between 2-5 solar masses.
- Identification of 8 candidates within the mass gap.

## Abstract

Context: Gravitational microlensing is sensitive to compact-object lenses in the Milky Way, including white dwarfs, neutron stars or black holes, and could potentially probe a wide range of stellar remnant masses. However, the mass of the lens can be determined only in very limited cases, due to missing information on both source and lens distances and their proper motions.   Aims: We aim at improving the mass estimates in the annual parallax microlensing events found in the 8 years of OGLE-III observations towards the Galactic Bulge (Wyrzykowski et al. 2016) with the use of Gaia Data Release 2 (DR2).   Methods: We use Gaia DR2 data on distances and proper motions of non-blended sources and recompute the masses of lenses in parallax events. We also identify new events in that sample which are likely to have dark lens; the total number of such events is now 18.   Results: The derived distribution of masses of dark lenses is consistent with a continuous distribution of stellar remnant masses. A mass gap between neutron-star and black-hole masses in the range between 2 and 5 solar masses is not favoured by our data, unless black holes receive natal-kicks above 20-80 km/s. We present 8 candidates for objects with masses within the putative mass gap, including a spectacular multi-peak parallax event with mass of $2.4^{+1.9}_{-1.3}\ M_\odot$ located just at 600 pc. The absence of an observational mass gap between neutron stars and black holes, or, conversely, the evidence for black hole natal kicks if a mass gap is assumed, can inform future supernova modelling efforts.

## Full text

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## Figures

13 figures with captions in the complete paper: https://tomesphere.com/paper/1904.07789/full.md

## References

92 references — full list in the complete paper: https://tomesphere.com/paper/1904.07789/full.md

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Source: https://tomesphere.com/paper/1904.07789