http://arxiv.org/abs/1908.09839
We report the discovery of a white dwarf exhibiting deep, irregularly shaped transits indicative of disrupted planetary debris. Two prominent transits are seen in the 210-day-long Zwicky Transient Facility light curve of ZTF J013906.17+524536.89, each roughly 25 days long and causing $30{-}45\%$ dips in flux. The transits are separated by about $110$ days, much longer than the 4.5 hour orbital period observed in WD1145+017, the only other white dwarf with transiting circumstellar debris. An eccentricity $e>0.97$ is required assuming a 110-day orbital period and material that comes within the white dwarf’s tidal disruption radius, suggesting an early phase of tidal disruption prior to complete disk filling. An optical spectrum of ZTF J0139+5245 reveals strong Balmer lines, establishing it as a DA white dwarf with $T_{\rm{eff}}=10{,}530\pm140$ K and $\log(g)=7.86\pm0.06$. The spectroscopic $T_{\rm{eff}}$ combined with broadband photometry suggests a high extinction towards ZTF J0139+5245. A Ca-II absorption feature at $3934$A is present in all three nights of spectra, but its association with ZTF J0139+5245 remains uncertain. In addition, high-speed time series photometry is suggestive of short-period (950 s) variability, consistent with ZZ Ceti pulsations.
Z. Vanderbosch, J. Hermes, E. Dennihy, et. al.
Wed, 28 Aug 19
13/60
Comments: Submitted to ApJL, 4 Figures, 1 Table
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