The Double-lined Eclipsing γ Doradus System AX Draconis in a 0.568-day Orbit

Abstract

For the near-contact binary AX Dra, we present the first time-series spectroscopy collected with the echelle spectrograph BOES. From spectral analysis, we measured the projected rotation of v1 i = 12021 km s-1 and effective temperature of T eff,1 = 7220150 K for the brighter primary component, together with radial velocities (RVs) for both stars. To obtain a consistent binary model, the RV curves were analyzed by combining the 2-min cadence photometric data observed in the TESS sectors 15, 21, 22, and 41. The modeling indicates that AX Dra is a semi-detached system exhibiting a total secondary eclipse, with the detached primary component having a large filling factor of 92 \%. The system has masses of 1.7170.026 M and 0.8040.014 M, radii of 1.5410.020 R and 1.2370.014 R, luminosities of 5.780.50 L and 0.830.05 L, and a temperature difference of Δ(T eff,1--T eff,2) = 2263163 K. Multi-frequency analyses of the TESS residual lights yielded 35 significant signals in the frequency range below 5 day-1. Among them, four frequencies of f1, f2, f3, and f5 are independent γ Dor pulsations of the primary star, for which two acceptable mode-identification solutions were obtained using the frequency ratio method. These results suggest that AX Dra is the shortest-period double-lined eclipsing binary containing a γ Dor-type pulsator and that the pulsating primary is likely an accretor affected by mass transfer.