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Main Author: Davidge, T. J.
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.27109
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author Davidge, T. J.
author_facet Davidge, T. J.
contents The evolutionary state of the 198 day eclipsing binary BM Cas is examined using spectra that cover five orbital cycles. Radial velocities measured from SiII 6347 and SiII 6371 track the motion of the primary, and a mass function is found that is similar to that obtained by Popper(1977) from MgII 4481. Absorption from a circumsystem shell complicates efforts to measure stellar velocities from FeII lines. Many of the characteristics of Halpha emission and absorption that are associated with the shell vary in sync with the motion of the primary, and it is suggested that the shell may form from material that exits the system from L2. The infrared spectral-energy distribution departs from that of an A supergiant only at wavelengths > 5um, and models are examined in which the secondary is obscured by an opaque envelope. Archived V band photometry is compared with model light curves, and it is concluded that the A supergiant is close to filling, or is filling, its Roche lobe, and that the as-yet undetected secondary may be more massive than the primary. Based on the overall properties of BM Cas and its environment, we suggest that it is an Algol or post-Algol system, in which the A supergiant was originally the more massive component. If this is the case then the stars in BM Cas had intermediate initial masses. Some of the photometric characteristics of the primary are indicative of alpha Cyg-type variability.
format Preprint
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institution arXiv
publishDate 2026
record_format arxiv
spellingShingle The A Supergiant Eclipsing Binary BM Cas: An Evolved, Intermediate Mass System
Davidge, T. J.
Solar and Stellar Astrophysics
The evolutionary state of the 198 day eclipsing binary BM Cas is examined using spectra that cover five orbital cycles. Radial velocities measured from SiII 6347 and SiII 6371 track the motion of the primary, and a mass function is found that is similar to that obtained by Popper(1977) from MgII 4481. Absorption from a circumsystem shell complicates efforts to measure stellar velocities from FeII lines. Many of the characteristics of Halpha emission and absorption that are associated with the shell vary in sync with the motion of the primary, and it is suggested that the shell may form from material that exits the system from L2. The infrared spectral-energy distribution departs from that of an A supergiant only at wavelengths > 5um, and models are examined in which the secondary is obscured by an opaque envelope. Archived V band photometry is compared with model light curves, and it is concluded that the A supergiant is close to filling, or is filling, its Roche lobe, and that the as-yet undetected secondary may be more massive than the primary. Based on the overall properties of BM Cas and its environment, we suggest that it is an Algol or post-Algol system, in which the A supergiant was originally the more massive component. If this is the case then the stars in BM Cas had intermediate initial masses. Some of the photometric characteristics of the primary are indicative of alpha Cyg-type variability.
title The A Supergiant Eclipsing Binary BM Cas: An Evolved, Intermediate Mass System
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2604.27109