The Pre-He White Dwarfs in Eclipsing Binaries. IV. WASP 1814+48 with Multiperiodic Pulsations
Abstract
For the EL CVn candidate 1SWASPJ181417.43+481117.0 (WASP 1814+48), we secured the first spectroscopic observations between 2015 April and 2021 March. Using the echelle spectra, the radial velocities (RVs) of the primary star were measured with its atmospheric parameters of T eff,1=7770130 K and v1=476 km s-1. We fitted our single-lined RVs and the TESS light curve simultaneously. From the binary modeling, we determined the following fundamental parameters for each component: M1=1.6590.048 M, R1=1.9450.027 R, and L1=12.350.90 L for WASP 1814+48 A, and M2=0.1720.005 M, R2=0.1940.005 R, and L2=0.690.07 L for WASP 1814+48 B. The surface gravity of g2=5.0980.026 obtained from M2 and R2 is concurrent with 5.0970.025 computed directly from the observable quantities. WASP 1814+48 B is well-matched with the 0.176 M white dwarf (WD) evolutionary model for Z=0.01. The metallicity and our Galactic kinematics indicate that the program target is a thin-disk star. The whole light residuals after removal of the binary trend were analyzed and found to oscillate at a total of 52 frequencies. Among these, most of the low frequencies below 24 day-1 are aliases and orbital harmonics. The five significant frequencies between 32 and 36 day-1 are the pulsation modes of WASP 1814+48 A located in the δ Sct domain on ZAMS, and the high frequencies of 128-288 day-1 arise from WASP 1814+48 B in the pre-He WD instability strip. Our results reveal that WASP 1814+48 is the fifth EL CVn star that is composed of a δ Sct-type primary and a pre-ELMV (extremely low-mass pre-He WD variable).
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