Men'shchikov, A. B.; Miroshnichenko, A. S.; Levato, H.; Bjorkman, K. S.; Grosso, M.; Manset, N.; Rudy, R. J.; Lynch, D. K.; Mazuk, S.; Venturini, C. C.
Abstract:
We present the results of optical and near-IR spectroscopic and mid-IR imaging observations of the emission-line star MWC 300. Its properties and evolutionary state are still under debate (a B[e] supergiant or a Herbig Be star). For the first time we detected radial velocity variations of the photospheric lines and found a correlation between them and those of the He [iota] [lambda]5876 [Angstrom] line. Most of the pure emission lines had stable positions for nearly 20 years. New estimates of the object’s luminosity (log L/L[subscript circled dot] = 5.1 [plus or minus] 0.1), distance (D = 1.8 [plus or minus] 0.2 kpc), and systemic velocity (+26 [plus or minus] 2 km s[superscript −1]) were derived. We found that both the circumstellar extinction in the disk-like dusty envelope and the interstellar extinction play a significant role in the attenuation of the stellar brightness. Our 2D modeling of the observed spectral energy distribution in the wavelength range from 0.3 [micrometres] to 1.3 mm suggests that the star is viewed through a gaseous-and-dusty flared disk with an opening angle of 30[degrees symbol], an inclination angle of 10[degrees symbol], an equatorial optical depth [tau][subscript V] = 3.0, and a total mass of 0.08 M[subscript circled dot]. We argue that MWC 300 is most likely a binary system, because of the similarities of its observed parameters with those of recognized B[e] binaries.