High-resolution spectroscopy of U Gem was obtained during quiescence. We did not find a hot spot or gas stream around the outer boundaries of the accretion disk. Instead, we detected a strong narrow emission near the location of the secondary star. We measured the radial velocity curve from the wings of the double-peaked H emission line, and obtained a semi-amplitude value in excellent agreement with the ultraviolet results by Long & Gilliland (1999). We present also a new method to obtain K2, which enhances the detection of absorption or emission features arising in the late-type companion. Our results are compared with published values derived from the near-infrared NaI line doublet. From a comparison of the TiO band with those of late type M stars, we find that a best fit is obtained for a M6 V star, contributing 5% of the total light at that spectral region. Assuming that the radial velocity semi-amplitudes reflect accurately the motion of the binary components, then from our results: Kem = 108 2 km s1; Kabs = 310 5 km s1, and using the inclination angle by Zhang & Robinson (1987); i = 69°.7 0.7, the system parameters become: MWD = 1.20 0.05 M; MRD = 0.42 0.04 M; and a = 1.55 0.02 R. Based on the separation of the double emission peaks, we calculate an outer disk radius of Rout/a 0.63, close to the distance of the inner Lagrangian point L1/a 0.63. Therefore we suggest that, at the time of observations, the accretion disk was filling the Roche-Lobe of the primary, and that the matter leaving the L1 point was colliding with the disc directly, producing the hot spot at this location. Specific details not included in the printed version can be found in the Electronic Poster (EP). © 2007 International Astronomical Union.
CITATION STYLE
Echevarra, J., De La Fuente, E., & Costero, R. (2006). U Geminorum: A test case for orbital parameters determination. In Proceedings of the International Astronomical Union (Vol. 2, pp. 309–312). Cambridge University Press. https://doi.org/10.1017/S174392130700422X
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