X-ray emission of contact binary variables within 1 kpc
Abstract
By assembling the largest sample to date of X-ray emitting EW-type binaries (EWXs), we carried out correlation analyses for the X-ray luminosity logLX, and X-ray activity level log(LX/Lbol) versus the orbital period P and effective temperature T eff. We find strong P-logLX and P-log(LX/Lbol) correlations for EWXs with P < 0.44 days and we provide the linear parametrizations for these relations, on the basis of which the orbital period can be treated as a good predictor for logLX and log(LX/Lbol). The aforementioned binary stellar parameters are all correlated with logLX, while only T eff exhibits a strong correlation with log(LX/Lbol). Then, EWXs with higher temperature show lower X-ray activity level, which could indicate the thinning of the convective area related to the magnetic dynamo mechanism. The total X-ray luminosity of an EWX is essentially consistent with that of an X-ray saturated main sequence star with the same mass as its primary, which may imply that the primary star dominates the X-ray emission. The monotonically decreasing P-log(LX/Lbol) relation and the short orbital periods indicate that EWXs could all be in the X-ray saturated state, and they may inherit the changing trend of the saturated X-ray luminosities along with the mass shown by single stars. For EWXs, the orbital period, mass, and effective temperature increase in concordance. We demonstrate that the period P=0.44 days corresponds to the primary mass of 1.1 M, beyond which the saturated X-ray luminosity of single stars will not continue to increase with mass. This explains the break in the positive P-logLX relation for EWXs with P>0.44 days.
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