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Photometric Analysis of Magellanic Cloud R Coronae Borealis Stars in the Recovery Phases of Their Declines*

Published online by Cambridge University Press:  05 March 2013

R. M. Woollands ,
P. L. Cottrell  and
A. Udalski
R. M. Woollands
Affiliation:
Dept of Physics & Astronomy, University of Canterbury, New Zealand
P. L. Cottrell*
Affiliation:
Dept of Physics & Astronomy, University of Canterbury, New Zealand
A. Udalski
Affiliation:
Warsaw University Observatory, Al. Ujazdowskie 4 00-478 Warszawa, Poland
*
CCorresponding author. Email: peter.cottrell@canterbury.ac.nz
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Abstract

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This paper presents the initial results of a multi-site photometric programme to examine the extraordinary behaviour displayed by 18 R Coronae Borealis (RCB) stars in the Magellanic Clouds (MCs). RCB stars exhibit a unique variability whereby they undergo rapid declines of up to several magnitudes. These are thought to be caused by the formation of dust in the stellar environment which reduces the brightness. The monitoring programme comprised the collection of UBVRI photometric data using five telescopes located at three different southern hemisphere longitudes (Las Campanas Observatory in Chile, Mount John University Observatory in New Zealand, and the Southern African Large Telescope, SALT, in South Africa). Examination of the data acquired in the V and I filters resulted in the identification of a total of 18 RCB declines occurring in four stars. Construction of colour–magnitude diagrams (V versus VI), during the recovery to maximum light were undertaken in order to study the unique colour behaviour associated with the RCB declines. The combined recovery slope for the four stars was determined to be 3.37 ± 0.24, which is similar to the value of 3.1 ± 0.1 calculated for galactic RCB stars (Skuljan et al. 2003). These results may imply that the nature of the dust (i.e. the particle size) is similar in both our Galaxy and the MCs.

Keywords

stars: variable: otherstars: activityMagellanic Clouds
Type
Research Article
Information
Publications of the Astronomical Society of Australia , Volume 26 , Issue 1 , 2009 , pp. 85 - 91
Copyright
Copyright © Astronomical Society of Australia 2009

Footnotes

*

Based partially on observations made with the Southern African Large Telescope (SALT).

References

Alcock, C. et al., 2001, APJ, 554, 298 CrossRefGoogle Scholar
Clayton, G. C., 1996, PASP, 108, 225 CrossRefGoogle Scholar
Cottrell, P. L., Lawson, W. A. & Buchhorn, M., 1990, MNRAS, 244, 149 Google Scholar
Cousins, W. A. & Stoy, R. H., 1962, RGOB, 49, 1 Google Scholar
Fadeyev, Y. A., 1983, Ap&SS, 95, 357 Google Scholar
Skuljan, L., Cottrell, P. L., Gilmore, A. C. & Kilmartin, P. M., 2003, PASA, 20, 159 CrossRefGoogle Scholar
Tisserand, P. et al., 2008, A&A, 481, 673 Google Scholar
Udalski, A., Szymański, M. K., Soszyński, I. & Poleski, R., 2008, AcA, 58, 69 Google Scholar
Walker, H. J., 1985, A&A, 152, 58 Google Scholar
Whitney, B. A., Clayton, G. C., Schulte-Ladbeck, R. E. & Meade, M. R., 1992, AJ, 103, 1652 CrossRefGoogle Scholar