Hostname: page-component-cd9895bd7-jkksz Total loading time: 0 Render date: 2024-12-24T16:11:23.693Z Has data issue: false hasContentIssue false

Two Centuries of Observing R Coronæ Borealis

Published online by Cambridge University Press:  20 April 2012

Geoffrey C. Clayton*
Affiliation:
Dept. of Physics & Astronomy, Louisiana State University, Baton Rouge, LA 70803, USA email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

R Coronæ Borealis was found to be variable in the year 1783, and was one of the first variable stars to be so identified. Its class, the R Coronæ Borealis (RCB) stars, are rare hydrogen-deficient carbon-rich supergiants. RCB stars undergo massive declines of up to 8 mag due to the formation of carbon dust at irregular intervals. The mechanism of dust formation around RCB stars is not well understood, but the dust is thought to form in or near the atmosphere of the star. Their rarity may stem from the fact that they are in an extremely rapid phase of the evolution, or are in an evolutionary phase that most stars do not undergo. Several evolutionary models have been suggested to account for the RCB stars, including a merger of two white dwarfs (WDs) or a final helium-shell flash (FF) in a PN central star. The large overabundance of 18O found in most of the RCB stars favours the WD merger model, while the presence of Li in the atmospheres of five RCB stars favours the FF one. In particular, the measured isotopic abundances imply that many, if not most, RCB stars are produced by WD mergers, which may be the low-mass counterparts of the more massive mergers thought to produce type Ia supernovæ. Understanding these enigmatic stars depends to a large extent on continuous monitoring to catch their irregular but rapid variations caused by dust formation, their variations due to stellar pulsations, and long-term changes that may occur over centuries. I will use observations of R Coronæ Borealis obtained over 200 years to demonstrate what kinds of monitoring are necessary for these and similar classes of variables.

Type
Contributed Papers
Copyright
Copyright © International Astronomical Union 2012

References

Alcock, C., et al. , 2001, ApJ, 554, 298.CrossRefGoogle Scholar
Asplund, M., Gustafsson, B., Kameswara Rao, N., & Lambert, D. L. 1998, A&A, 332, 651.Google Scholar
Asplund, M., et al. , 1999, A&A, 343, 507.Google Scholar
Asplund, M., et al. , 2000, A&A, 353, 287.Google Scholar
Clayton, G. C. 1996, PASP, 108, 225.CrossRefGoogle Scholar
Clayton, G. C. & De Marco, O. 1997, AJ, 114, 2679.CrossRefGoogle Scholar
Clayton, G. C., et al. , 1999, ApJ, 517, L143.CrossRefGoogle Scholar
Clayton, G. C., et al. , 2005, ApJ, 623, L141.CrossRefGoogle Scholar
Clayton, G. C., et al. , 2006, ApJ, 646, L69.CrossRefGoogle Scholar
Clayton, G. C., Geballe, T. R., Herwig, F., Fryer, C., & Asplund, M. 2007, ApJ, 662, 1220.CrossRefGoogle Scholar
Clayton, G. C., et al. , 2011, ApJ, 743, 44.CrossRefGoogle Scholar
Fujimoto, M. Y. 1977, PASJ, 29, 331.Google Scholar
Geballe, T. R., Evans, A., Smalley, B., Tyne, V H., & Eyres, S. P. S. 2002, Ap&SS, 279, 39.Google Scholar
Gonzalez, G., et al. , 1998, ApJS, 114, 133.CrossRefGoogle Scholar
Herwig, F. & Langer, N. 2001, Nuclear Physics A, 688, 221.CrossRefGoogle Scholar
Iben, I., Tutukov, A. V., & Yungelson, L. R. 1996, ApJ, 456, 750.CrossRefGoogle Scholar
Kraemer, K. E., Sloan, G. C., Wood, P. R., Price, S. D., & Egan, M. P. 2005, ApJ, 631, L147.CrossRefGoogle Scholar
Lambert, D. L. 1986, in: Hunger, K., Schönberner, D. & Rao, N. Kameswara (eds.), Hydrogen Deficient Stars and Related Objects, IAU Colloq. 87, ASSL, Vol. 128, p. 127Google Scholar
Pigott, E. & Englefield, H. C. 1797, Phil. Trans. Royal Soc., 87, 33.Google Scholar
Renzini, A. 1979, in: Westerlund, B. E. (ed.), Stars and Star Systems, ASSL Vol. 75, p. 155.Google Scholar
Saio, H. & Jeffery, C. S. 2002, MNRAS, 333, 121.CrossRefGoogle Scholar
Tisserand, P., et al. , 2008, A&A, 481, 673.Google Scholar
Walker, H., 1994, CCP7 Newsletter, 21, 40.Google Scholar
Webbink, R. F., 1984, ApJ, 277, 355.CrossRefGoogle Scholar
Zaniewski, A., et al. , 2005, AJ, 130, 2293.CrossRefGoogle Scholar