Journal
ASTROPHYSICAL JOURNAL
Volume 765, Issue 2, Pages -Publisher
IOP PUBLISHING LTD
DOI: 10.1088/0004-637X/765/2/158
Keywords
binaries: eclipsing; pulsars: individual (PSR J1816+4510); stars: atmospheres; stars: chemically peculiar; subdwarfs
Categories
Funding
- NSF
- Direct For Mathematical & Physical Scien
- Division Of Astronomical Sciences [1009987] Funding Source: National Science Foundation
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Most millisecond pulsars with low-mass companions are in systems with either helium-core white dwarfs or non-degenerate (black widow or redback) stars. A candidate counterpart to PSR J1816+4510 was identified by Kaplan et al. whose properties were suggestive of both types of companions although identical to neither. We have assembled optical spectroscopy of the candidate companion and confirm that it is part of the binary system with a radial velocity amplitude of 343 +/- 7 kms(-1), implying a high pulsar mass, M-psr sin(3) i = 1.84 +/- 0.11 M circle dot, and a companion mass M-c sin(3) i = 0.193 +/- 0.012 M circle dot, where i is the inclination of the orbit. The companion appears similar to proto-white dwarfs/sdB stars, with a gravity log(10)(g) = 4.9 +/- 0.3, and effective temperature 16,000 +/- 500 K. The strongest lines in the spectrum are from hydrogen, but numerous lines from helium, calcium, silicon, and magnesium are present as well, with implied abundances of roughly 10 times solar (relative to hydrogen). As such, while from the spectrum the companion to PSR J1816+4510 is superficially most similar to a low-mass white dwarf, it has much lower gravity, is substantially larger, and shows substantial metals. Furthermore, it is able to produce ionized gas eclipses, which had previously been seen only for low-mass, non-degenerate companions in redback or black widow systems. We discuss the companion in relation to other sources, but find that we understand neither its nature nor its origins. Thus, the system is interesting for understanding unusual stellar products of binary evolution, as well as, independent of its nature, for determining neutron-star masses.
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