http://arxiv.org/abs/1907.13152
We present the first volume-limited sample of cataclysmic variables (CVs), selected using the accurate parallaxes provided by the second data release (DR2) of the ESA $\mathit{Gaia}$ space mission. The sample is composed of 42 CVs within 150 pc, including two new systems discovered using the $\mathit{Gaia}$ data, and is $\simeq 75$ per cent complete. We use this sample to study the intrinsic properties of the Galactic CV population. In particular, the CV space density we derive, $\rho=(4.8^{+0.6}{-0.9}) \times10^{-6}\,\mathrm{pc}^{-3}$, is lower than than predicted by most binary population synthesis studies. We also find a low fraction of period bounce CVs, five per cent, and an average white dwarf mass of $\langle M\mathrm{WD} \rangle = (0.83 \pm 0.17)\,\mathrm{M}_\odot$. Both findings confirm previous results, ruling out the presence of observational biases affecting these measurements, as has been suggested in the past. The observed fraction of period bounce CVs is in contrast with the theoretical predictions, $40-80$ per cent, and remains one of the open problems in the current understanding of CV evolution. Conversely, the average white dwarf mass is supportive of the presence of additional mechanisms of angular momentum loss that have been recently accounted for in the latest evolutionary models. The fraction of magnetic CVs in the 150 pc sample is remarkably high, 33 per cent. This is in striking contrast with the absence of magnetic white dwarf in the detached population of CV progenitors, and underlines that the evolution of magnetic systems has to be included into the next generation of population models.
A. Pala, B. Gänsicke, E. Breedt, et. al.
Thu, 1 Aug 19
41/66
Comments: Submitted to MNRAS