Mass Ratio Distribution of Hierarchical Triple Systems from the LAMOST-MRS Survey

Abstract

Hierarchical triple-star systems consists of three components organised into an inner binary (M1,M2) and a more distant outer tertiary (M3) star. The LAMOST Medium-Resolution Spectroscopic Survey (LAMOST-MRS) has offered a great sample for the study of triple system populations. We used the Peak Amplitude Ratio (PAR) method to obtain the mass ratio (qin, qout) of a triple system from its normalised spectrum. By calculating Cross-Correlation Function (CCF), we determined the correlation between the mass ratio qout (M3/(M1+M2)) and the amplitude ratio (A3/(A1+A2)). We derived qin of 0.5-1.0 and qout between 0.2 and 0.8. By fitting a power-law function of the corrected qin distribution, the γin are estimated to be -0.6542.915, 4.3041.125 and 11.3711.309 for A, F and G type stars. The derived γin-values increase as the mass decrease, indicating that less massive stars are more likely to have companion stars with similar masses. By fitting a power-law function of the corrected qout distribution, the γout are estimated to be -2.0160.172, -1.9620.853 and -1.2380.141 for G, F and A type stars, respectively. The γout-values show a trend of growth toward lower primary star masses.

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