Context. The variability of the Wolf-Rayet star EZ CMa has been documented
for close to half a century, and a clear periodicity of βΌ3.7 days is
established. However, all attempts to prove that it is a binary have failed
because the photometric, spectroscopic, and polarimetric variations are not
coherent over more than a few orbital cycles.
Aims. In this letter we show that the lack of coherence in the variability
can be explained with a very rapid apsidal motion in a binary orbit.}
Methods. We measured the times of minima in a recently published
exceptionally long photometric light curve obtained by the Toronto
{\emph{BRITE}} satellite. The apsidal motion and the system eccentricity are
determined from the length of the time intervals between these minima, which
alternate in their duration, following a pattern that is clearly associated
with apsidal motion. These minima are superposed on brightness enhancements of
the emission from a shock zone, which occur at about the times of periastron
phases.
Results. We determine the orbital periodicity, Paβ=3.63d, and the
period of the apsidal motion, Uβ100d, which together yield an
average sidereal period of Psβ=3.77d. The eccentricity is found to be
close to 0.1. The rate of periapsis retreat changes significantly over the
period of observation and is determined to be β16βPaβ1β at
the beginning of the observing period and β10βPaβ1β at the
end.
Conclusions. We demonstrate that by introducing a fast apsidal motion, the
basic photometric variability is very well explained. The binary nature of EZ
CMa is now established. This might imply that other apparently single
Wolf-Rayet stars that emit hard X-rays, similar to EZ CMa, are also binaries.Comment: A&A Letter in press, 5 pages, 3 figure