UY Volantis, also known as EXO 0748-676, is a low mass
X-ray binary[6] system located in the constellation
Volans. With an
apparent magnitude of 16.9, it requires a powerful telescope to see. With a
radial velocity of 20 km/s, it is drifting away from the
Solar System, and is currently located 26,000
light years away.
Properties
The properties of the two system components are uncertain and contradictory. One component is almost certain to be a neutron star, which has a fairly strict upper mass limit. The other component is a low mass star, but its properties are affected by the close neutron star. The two components orbit each other every 3.82
hours.[7]
The system undergoes
x-ray eclipses which can be used to constrain the properties of the orbit and of the component stars. The orbital inclination must be high and is thought to be about 76°.[8] The mass ratio of the components is relatively well-known and shows the neutron star to be about four times as massive as its partner. This implies either an unusually low-mass star or an unusually high-mass neutron star. Simple models produce neutron star masses above 3
M☉ which is theoretically impossible.[9] More complex models of the system produced by measuring the eclipses still produce an unexpectedly high neutron star mass of about 2 M☉ which would make it one of the highest known.[8] A more expected neutron star mass of around 1.4 M☉ can be deduced by making certain assumptions about the origin of the spectral lines or an unusually low-mass companion.[10][8]
^
abcKnight, Amy H.; Ingram, Adam; Middleton, Matthew; Drake, Jeremy (2022). "Eclipse mapping of EXO 0748-676: Evidence for a massive neutron star". Monthly Notices of the Royal Astronomical Society. 510 (4): 4736.
arXiv:2201.02188.
Bibcode:
2022MNRAS.510.4736K.
doi:
10.1093/mnras/stab3722.
^Ratti, E. M.; Steeghs, D. T. H.; Jonker, P. G.; Torres, M. A. P.; Bassa, C. G.; Verbunt, F. (2012). "Optical spectroscopy of the quiescent counterpart to EXO 0748-676: A black widow scenario?". Monthly Notices of the Royal Astronomical Society. 420 (1): 75.
arXiv:1110.3963.
Bibcode:
2012MNRAS.420...75R.
doi:
10.1111/j.1365-2966.2011.19999.x.