Bibcode
Casares, J.; Ribó, M.; Ribas, I.; Paredes, J. M.; Vilardell, F.; Negueruela, I.
Bibliographical reference
Monthly Notices of the Royal Astronomical Society, Volume 421, Issue 2, pp. 1103-1112.
Advertised on:
4
2012
Citations
80
Refereed citations
58
Description
We present optical spectroscopy of MWC 656 and MWC 148, the proposed
optical counterparts of the γ-ray sources AGL J2241+4454 and HESS
J0632+057, respectively. The main parameters of the Hα emission
line [equivalent width (EW), full width at half-maximum and centroid
velocity] in these stars are modulated on the proposed orbital periods
of 60.37 and 321 d, respectively. These modulations are likely produced
by the resonant interaction of the Be discs with compact stars in
eccentric orbits. We also present radial velocity curves of the optical
stars folded on the above periods and obtain the first orbital elements
of the two γ-ray sources, thus confirming their binary nature. Our
orbital solution supports eccentricities e˜ 0.4 and 0.83 ±
0.08 for MWC 656 and MWC 148, respectively. Furthermore, our orbital
elements imply that the X-ray outbursts in HESS J0632+057/MWC 148 are
delayed ˜0.3 orbital phases after periastron passage, similar to
the case of LS I +61 303. In addition, the optical photometric
light-curve maxima in AGL J2241+4454/MWC 656 occur ˜0.25 phases
passed periastron, similar to what is seen in LS I +61 303. We also find
that the orbital eccentricity is correlated with the orbital period for
the known γ-ray binaries. This is explained by the fact that small
stellar separations are required for the efficient triggering of very
high energy radiation. Another correlation between the EW of Hα
and orbital period is also observed, similar to the case of Be/X-ray
binaries. These correlations are useful to provide estimates of the key
orbital parameters Porb and e from the Hα line in
future Be γ-ray binary candidates.
Related projects
Black holes, neutron stars, white dwarfs and their local environment
Accreting black-holes and neutron stars in X-ray binaries provide an ideal laboratory for exploring the physics of compact objects, yielding not only confirmation of the existence of stellar mass black holes via dynamical mass measurements, but also the best opportunity for probing high-gravity environments and the physics of accretion; the most
Montserrat
Armas Padilla