The intermediate polar cataclysmic variable GK Persei 120 years after the nova explosion: a first dynamical mass study

Abstract

We present a complete dynamical study of the intermediate polar and dwarf nova cataclysmic variable GK Per (Nova Persei 1901) based on a multi-site optical spectroscopy and R-band photometry campaign. The radial velocity curve of the evolved donor star has a semi-amplitude K2=126.4 0.9 \, km\,s-1 and an orbital period P=1.996872 0.000009 \, d. We refine the projected rotational velocity of the donor star to vrot i = 52 2 \, km\,s-1 which, together with K2, provides a donor star to white dwarf mass ratio q=M2/M1=0.38 0.03. We also determine the orbital inclination of the system by modelling the phase-folded ellipsoidal light curve and obtain i=67 5. The resulting dynamical masses are M1=1.03+0.16-0.11 \, M and M2 = 0.39+0.07-0.06 \, M at 68 per cent confidence level. The white dwarf dynamical mass is compared with estimates obtained by modelling the decline light curve of the 1901 nova event and X-ray spectroscopy. The best matching mass estimates come from the nova light curve models and an X-ray data analysis that uses the ratio between the Alfv\'en radius in quiescence and during dwarf nova outburst.