Exploring the physical properties of the γ Dor binary star RX Dra with photometry and asteroseismology

Abstract

We model the TESS light curve of the binary system RX Dra, and also first calculate a lot of theoretical models to fit the g-mode frequencies previously detected from the TESS series of this system. The mass ratio is determined to be q=0.9026+0.0032-0.0032. We newly found that there are 16 frequencies (F1-F7, F11-F20) identified as dipole g-modes, two frequencies (F21, F22) identified as quadrupole g-modes, and another two frequencies (F23, F24) identified as g-sextupole modes, based on these model fits. The primary star is newly determined to be a γ Dor pulsator in the main-sequence stage with a rotation period of about 5.7+0.7-0.2 days, rotating slower than the orbital motion. The fundamental parameters of two components are firstly estimated as follows: M1=1.53+0.00-0.17 M , M2= 1.38+0.18-0.00 M , T1=7240+490-44 K, T2=6747+201-221 K, R1=1.8288+0.0260-0.0959 R , R2= 1.3075+0.0450-0.2543 R , L1=8.2830+1.8015-0.6036 L and L2= 3.4145+0.1320-0.1843 L . Our results show that the secondary star is in the solar-like pulsator region of the H-R diagram, indicating that it could be a pulsating star of this type. Finally, the radius of the convective core of the primary star is estimated to be about 0.1403+0.0206-0.0000 R.

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