The evolutionary history of GD 1400AB, a white dwarf–brown dwarf binary
GD1400AB was one of the first known white dwarf $+$ brown dwarf binaries and is the only one of these systems where the white dwarf is a ZZ Ceti pulsator. Here, we present both radial velocity measurements and time-series photometry, analysing both the white dwarf pulsations and the effects of irradiation on the brown dwarf. We find that the brightness temperatures of 1760 $\pm $ 10 K for the nightside and 1860 $\pm$ 10 K for the dayside indicate that the brown dwarf is hotter than spectra have previously suggested, although brightness temperatures calculated using a larger radius for the brown dwarf are consistent with previously determined spectral types. We also discuss the likely evolutionary pathway of this binary and put its common envelope phase into context with the other known systems.
Funding
Irradiated atmospheres of brown dwarfs: providing an insight into exoplanet atmospheres
Science and Technology Facilities Council
Find out more...NSERC Canada and by the Fund FQR-NT (Québec)
University of Leicester’s College of Science and Engineering for a PhD studentship
History
Author affiliation
College of Science & Engineering Physics & Astronomy College of BusinessVersion
- VoR (Version of Record)
Published in
Monthly Notices of the Royal Astronomical SocietyVolume
535Issue
1Pagination
753 - 762Publisher
Oxford University Press (OUP)issn
0035-8711eissn
1365-2966Copyright date
2024Available date
2024-12-11Publisher DOI
Language
enPublisher version
Deposited by
Dr Matthew BurleighDeposit date
2024-12-10Data Access Statement
The UVES and SOFI data are available in the ESO data archive, and the ALLWISE data are public and available at IRSA. The SAAO data are available on request to the authors.Rights Retention Statement
- Yes
