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Observation and Analysis of RW Doradus

Published online by Cambridge University Press:  05 March 2013

B. F. Marino ,
W. S. G. Walker ,
C. Bembrick  and
E. Budding
B. F. Marino
Affiliation:
Auckland Observatory, PO Box 24 180 Royal Oak, Auckland 1345, New Zealand
W. S. G. Walker
Affiliation:
Wharemaru Observatory, Awanui 0552, Kaitaia, New Zealand
C. Bembrick
Affiliation:
Mt. Tarana Observatory, PO Box 1537, Bathurst, NSW 2795, Australia
E. Budding*
Affiliation:
Carter Observatory, PO Box 2909, Wellington, New Zealand & Physics Dept., 18th March University of Canakkale, Turkey
*
ECorresponding author. Email: ebudding@comu.edu.tr
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Abstract

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Photometry of the short-period (P ∼0.285 d) low-mass (M1 ∼0.67, M2 ∼0.48 M) W UMa-type eclipsing binary RW Dor, mainly involving a good series of observations in 1987–88, using standard B and V filters at the Auckland Observatory, is examined. Analysis via light curve fittings alone permits both transit (near main sequence) and occultation (W-type contact binary) solutions. Consideration of proximity or other effects on the relatively small number of measured radial velocities gives rise to a more detailed review of the alternatives, though the (W-type) configuration determined by Hilditch, Hill & Bell (1992) is still confirmed. Further implications of this configuration are examined, given an apparent general trend to period decrease (Δ P/P ∼6 × 10−11), and some light curve asymmetry. This is consistent with the initially low-mass companion, Case-B scenario of Budding (1984). The evidence does suggest irregularity of the period variation however, and further detailed surveillance, including more spectroscopy, is desirable.

Keywords

stars: close binariesstars: late-typestars: individual: RW Dorgeneral: contact binaries techniques: photometric light curve analysis
Type
Research Article
Information
Publications of the Astronomical Society of Australia , Volume 24 , Issue 4 , 2007 , pp. 199 - 207
Copyright
Copyright © Astronomical Society of Australia 2007

References

Applegate, J., 1992, ApJ, 385, 621 CrossRefGoogle Scholar
Banks, T. & Budding, E., 1990, Ap&SS, 167, 221 Google Scholar
Banks, T., Sullivan, D. J. & Budding, E., 1990, Ap&SS, 173, 77 Google Scholar
Barden, S. C., 1985, ApJ, 295, 162 CrossRefGoogle Scholar
Beasley, A. J., Ball, L. T., Budding, E., Slee, O. B. & Stewart, R. T., 1993, AJ, 106, 1656 CrossRefGoogle Scholar
Budding, E., 1981, in Investigating the Universe, Ed. Kahn, F. D. (Dordrecht: Riedel), 271 CrossRefGoogle Scholar
Budding, E., 1984, A&A, 130, 324 Google Scholar
Budding, E., Bakiş, V., Erdem, A., Demircan, O., Iliev, L., Iliev, I. & Slee, O. B., 2005, Ap&SS, 296, 371 Google Scholar
Budding, E. & Demircan, O., 2007, Introduction to Astronomical Photometry 2nd edn (Cambridge: Cambridge University Press)CrossRefGoogle Scholar
Duerbeck, H. & Rucinski, S., 2007, AJ, 133, 169 CrossRefGoogle Scholar
Eker, Z., Demircan, O., Bilir, S. & Karataş, Y., 2006, MNRAS, 373, 1483 CrossRefGoogle Scholar
ESA, 1997, The Hipparcos and Tycho Catalogues (Noordwijk: ESTEC), 1548 ppGoogle Scholar
Hazlehurst, J., Refsdal, S. & Stobbe, C., 1977, A&A, 58, 47 Google Scholar
Hertzsprung, E., 1928, BAN, 4, 154 Google Scholar
Hilditch, R. W., 1989, SSRv, 50, 289 Google Scholar
Hilditch, R. W., Hill, G. & Bell, S. A., 1992, MNRAS, 225, 285 CrossRefGoogle Scholar
Kaluzny, J. & Caillault, J.-P., 1989, AcA, 39, 27 Google Scholar
Kholopov, P. N., 1985, General Catalogue of Variable Stars (Moscow: Nauka Publ.)Google Scholar
Kopal, Z., 1959, Close Binary Systems (London: Chapman & Hall)Google Scholar
Kopal, Z., 1979, ASSL, 77 Google Scholar
Kouwenhoven, M. B. N., Brown, A. G. A., Zinnecker, H., Kaper, L. & Portegies Zwart, S. F., 2005, A&A, 430, 137 Google Scholar
Kraft, R., 1967, ApJ, 79, 395 Google Scholar
Kreiner, J. M., Kim, C.-H. & Nha, I.-S., 2001, An Atlas of O–C Diagrams of Eclipsing Binary Stars (Krakow: Wydawnistwo Naukowo)Google Scholar
Kwee, K. K. & van Woerden, H., 1956, BAN, 12, 327 Google Scholar
Lubow, S. H. & Shu, F. H., 1975, ApJ, 198, 383 CrossRefGoogle Scholar
Marton, S. F., Grieco, A. & Sistero, R. F., 1989, MNRAS, 240, 931 CrossRefGoogle Scholar
McLaughlin, D. B., 1927, AJ, 38, 45 CrossRefGoogle Scholar
Paczyński, B., Szczygiel, D. M., Pilecki, B. & Pomanski, G., 2006, MNRAS, 368, 1311 CrossRefGoogle Scholar
Rucinski, S. M. & Seaquist, E. R., 1988, AJ, 95, 1837 CrossRefGoogle Scholar
Rucinski, S. M. & Lu, W., 1999, AJ, 118, 2451 CrossRefGoogle Scholar
Van't Veer, F., 1993, in New Frontiers in Binary Star Research, Eds. Leung, K. C. & Nha, I. S. (San Francisco: ASP), 229 Google Scholar
Vilhu, O., 1981, Ap&SS, 78, 401 Google Scholar
Vilhu, O. & Walter, F. M., 1987, ApJ, 321, 958 CrossRefGoogle Scholar
Vilhu, O., Caillault, J.-P. & Heise, J., 1988, ApJ, 330, 922 CrossRefGoogle Scholar
Webbink, R., 1979, ApJ, 227, 178 CrossRefGoogle Scholar
Wilson, R. E. & Devinney, E. J., 1971, ApJ, 166, 605 CrossRefGoogle Scholar
Yamasaki, A., 1975, Ap&SS, 34, 413 Google Scholar