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Transit detection limits for sub-stellar and terrestrial companions to white dwarfs

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Faedi, F., West, Richard G., Burleigh, Matthew R., Goad, M. R. and Hebb, L. (2009) Transit detection limits for sub-stellar and terrestrial companions to white dwarfs. Journal of Physics : Conference Series, Volume 172 . Article number 012057. doi:10.1088/1742-6596/172/1/012057 ISSN 1742-6596.

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Official URL: http://dx.doi.org/10.1088/1742-6596/172/1/012057

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Abstract

The SuperWASP project is a ground-based ultra wide angle search for extra-solar planetary transits that has successfully detected 15 previously unknown planets in the last two years. We have used SuperWASP photometric data to investigate the transit characteristics of and detection limits for brown dwarfs, gas giants and terrestrial companions in orbit around white dwarfs. The relatively small size of a white dwarf host star (approximately 1 Earth radius), implies that any sub-stellar or gas giant companion will completely eclipse it, while terrestrial bodies smaller than the Moon will produce relatively large (> 1%) transits, detectable in good S/N light-curves. We performed extensive simulations using SuperWASP photometric data and we found that for Gaussian random noise we are sensitive to companions as small as the Moon. Our sensitivity drops in the presence of co-variant noise structure, nevertheless Earth-size bodies remain readily detectable in relatively low S/N data. We searched for eclipses and transit signals in a sample of 174 WASP targets, resulting from a cross-correlation of the McCook & Sion catalogue and the SuperWASP data archive. This study found no evidence for sub-stellar or planetary companions in close orbits around our sample of white dwarfs.

Item Type: Journal Article
Divisions: Faculty of Science, Engineering and Medicine > Science > Physics
Journal or Publication Title: Journal of Physics : Conference Series
Publisher: Institute of Physics Publishing Ltd.
ISSN: 1742-6596
Official Date: 2009
Dates:
DateEvent
2009UNSPECIFIED
Volume: Volume 172
Article Number: Article number 012057
DOI: 10.1088/1742-6596/172/1/012057
Status: Peer Reviewed
Publication Status: Published

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