学术文献库

Context. Colliding wind binaries are massive systems featuring strong, interacting stellar winds which may act as particle accelerators. Therefore, such binaries are good candidates for detection at high energies. However, only the massive binary Eta Carinae has been firmly associated with a gamma-ray signal. A second system, gamma^2 Velorum, is positionally coincident with a gamma-ray source, but unambiguous identification remains lacking. Aims. Observing orbital modulation of the flux would establish an unambiguous identification of the binary gamma^2 Velorum as the gamma-ray source detected by the Fermi Large Area Telescope (Fermi-LAT). Methods. We have used more than 10 years of observations with Fermi-LAT. Events are folded with the orbital period of the binary to search for variability. Systematic errors that might arise from the strong emission of the nearby Vela pulsar are studied by comparing with a more conservative pulse-gated analysis. Results. Hints of orbital variability are found, indicating maximum flux from the binary during apastron passage. Conclusions. Our analysis strengthens the possibility that gamma-rays are produced in gamma^2 Velorum, most likely as a result of particle acceleration in the wind collision region. The observed orbital variability is consistent with predictions from recent MHD simulations, but contrasts with the orbital variability from Eta Carinae, where the peak of the light curve is found at periastron.