posted on 2016-12-07, 15:28authored byM. A. Barstow, S. L. Casewell, J. B. Holberg, J. K. Barstow
We present a series of systematic abundance measurements for 89 hot
DA white dwarfs drawn from the FUSE observation archive. These stars span the temperature
range ≈ 20000-70000K, and form the largest sample to-date, exceeding our
earlier study, based mainly on IUE and HST data, by a factor three. Using the heavy
element blanketed non-LTE stellar atmosphere calculations from this previous work,
we are able to measure the abundances of carbon, silicon, phosphorus and sulphur and
examine how they change as the stars cool. We are able to establish the broad range
of abundances seen in a given temperature range and establish the incidence of stars
which, like HZ43, appear to (surprisingly) be completely devoid of any material other
than H in their atmospheres. As a result we can begin to identify stars with peculiar
abundances in this temperature range and determine whether or not these objects might
be accreting planetary debris, as has been inferred for many cooler objects.
Funding
MAB and JKB acknowledge the support of the Science and
Technology Facilities Council. SLC is supported by the University of Leicester. JBH
acknowledges a visiting professorship from the University of Leicester.
History
Citation
18th European White Dwarf Workshop, 2013, 469, pp. 121-126 (6)
Author affiliation
/Organisation/COLLEGE OF SCIENCE AND ENGINEERING/Department of Physics and Astronomy
Source
18th European White Dwarf Workshop, EUROWD12, Pedagog Univ Cracow, Krakow, POLAND