Astronomy and Astrophysics – Astronomy
Scientific paper
Apr 1997
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1997mnras.286..487j&link_type=abstract
Monthly Notices of the Royal Astronomical Society, Volume 286, Issue 2, pp. 487-499.
Astronomy and Astrophysics
Astronomy
11
Binaries: Eclipsing, Stars: Fundamental Parameters, Stars: Individual: Hd185510
Scientific paper
HD185510 (=V1379 Aql) is an eclipsing double-lined RS CVn binary containing a K0 III/IV giant and a hot subluminous companion. An International Ultraviolet Explorer (IUE) ultraviolet light curve has been obtained through the eclipse of the companion with an average time resolution of one measurement every 19min. This was sufficient to resolve all four times of contact and, with data from previous work on this system, to derive a solution for the absolute dimensions of the system. The atmospheric parameters of both components have been investigated. From its out-of-eclipse flux distribution, the K0 star has T_eff=4500+/-300K and appears to be metal-deficient. However, these measurements are sensitive to the fractional spot coverage at the time photometry was obtained. The IUE flux distribution, low-resolution Lyalpha profile and a noisy high-resolution UV spectrum of the hot companion have been analysed to obtain T_eff=31500+/-1500K, logg=7.2+/-0.3 and E(B-V)= 0.13+/-0.03. C and Si are deficient by ~1 dex; it is not possible to deduce other metal abundances from the existing data. The spectroscopic gravity is higher than indicated by the eclipse geometry, indicating a weakness in the Lyalpha analysis. Neglecting Lyalpha, an alternative solution of T_eff=31000+/-1500K, logg=605+/-0.2 and E(B-V)= 0.1+/-0.03 is obtained from the orbital solution below. The relative radii of the subdwarf and K giant are related by the secondary-to-primary ratio r_s/r_p=0. 0058+/-0.0010. These data were used with the eclipse geometry in an attempt to obtain the orbital inclination. In order to avoid severe contradictions with other diagnostics it was necessary to introduce a non-negligible eclipse due to the cool star atmosphere. Whilst available data favour i=90+/-5, uncertainties introduced by the atmospheric eclipse meant that i~80 deg is also possible. With i=90 deg, the masses of the cool and hot stars are 2.27+/-0.17 and 0.304+/-0.015M_solar respectively. Whilst the high-gravity (Lyalpha) solution indicates the identification of the hot star as a helium white dwarf, the orbital solution favours an identification with sdOB stars such as SB707. A final resolution of the nature of the hot star is limited partly by data quality but also, to a large extent, by the intrinsic properties of the system itself.
Jeffery Simon C.
Simon Theodore
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