28 Tauri

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Dear colleagues!
As is known, the variable angles of inclination of Be star disks manifest themselves in the observer's line of sight as variable depths of the central absorption depression (CA) of the Halpha emission (Hanuschik, A&A 295, 1995;
http://articles.adsabs.harvard.edu/pdf/ ... .295..423H

A variable depth of the central depression in the Halpha emission thus also leads to a reciprocal variability of the equivalent width EW.
In simple words:
at a small angle of inclination (pole on) maximum emission can be observed (central absorption small, CA value F/Fc = large);
at a large angle of inclination (edge ​​on), lower emissions can be observed (central absorption deep, CA value F/Fc = small).

The change in the inclination angle of the disk is mainly caused in the periastron by the (unobservable) secondary star [for its possible nature see: RevMexAA (Serie de Conferencias), 5, 114-116, 1996].

This geometrical regularity can be observed very well in the phase of the periastron passages of the companion star in the Be binary star 28 Tau (Pollmann, IBVS Vol. 62, No. 6239; https://konkoly.hu/pub/ibvs/6201/6239.pdf)

The last period determinations based on radial velocity measurements (P = 218.058 d) date back to 2010 (Nemravova et al.
https://www.aanda.org/articles/aa/pdf/2 ... 885-09.pdf)

The very sharp peaks of the EW and CA changes at 10 periastron passages meanwhile suggest that these should also be used (perhaps preferably) for the future monitoring of the orbital period of the companion star.

The orbital periods presented here:
EW (periastron) = 218.119d (± 0.049)
CA (periastron) = 217.883d (± 0.084)

/sites/default/files/users/user63093/Periodenanalyse%20CA%20und%20EW_20.2.21.png

Comments are welcome.

Ernst Pollmann