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Observation, Modern Light-curve Analysis, and 89 yr Period Study of the Short-period Algol, AE Cassiopeia

AE Cas was observed some 40 yr ago by Srivastava & Kandpal and was analyzed by Kopal's Fourier frequency -domain technique. No further precision observations have taken place until the present study, which represents the first modern synthetic analysis of light curves using the 2016 version...

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Bibliographic Details
Published in:The Astronomical journal 2019-11, Vol.158 (5), p.180
Main Authors: Samec, Ronald G., Chamberlain, Heather, Caton, Daniel B., Faulkner, Danny R.
Format: Article
Language:English
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Summary:AE Cas was observed some 40 yr ago by Srivastava & Kandpal and was analyzed by Kopal's Fourier frequency -domain technique. No further precision observations have taken place until the present study, which represents the first modern synthetic analysis of light curves using the 2016 version of the Wilson-Devinney (W-D) Program. It was observed in 2015 October 2, 3 and 23, inclusive, at Dark Sky Observatory in North Carolina with the 0.81 m reflector of Appalachian State University and the 0.9 m reflector at Kitt Peak National Observatory remotely through the Southeastern Association for Research in Astronomy (SARA) consortia. V, Rc, Ic observations were taken. Five times of minimum light were determined from our present observations, which include three primary eclipses and two secondary eclipses. In addition, eight observations at minima were introduced as low weighted times of minimum light from archived All-Sky Automated Survey for Supernovae Variable Star Catalog (ASAS) data and 74 times of minimum light from the literature, some of which were from visual observations. This period study covers an interval of some 89 yr. The period was found to be decaying at a constant rate with a high level of confidence. A VRcIc simultaneous W-D Program solution indicates that the system has a mass ratio somewhat less than unity (q = 0.856 0.001), and a component temperature difference of ∼2060 K. A q-search was performed and the mass ratio minimized at the above value. The large temperature difference in the components verifies that the binary is not yet in contact. No spots were needed for the solution. The fill-out of our model is 83.2% for the primary component (smaller radius) and 99.1% for the secondary component. So, it is near a classical Algol configuration.
ISSN:0004-6256
1538-3881
DOI:10.3847/1538-3881/ab3e77