An Estimation of the White Dwarf Mass in the Dwarf Nova GK Persei with NuSTAR Observations of Two States

Abstract

We report on X-ray observations of the Dwarf Nova GK Persei performed by NuSTAR in 2015. GK Persei, behaving also as an Intermediate Polar, exhibited a Dwarf Nova outburst in 2015 March--April. The object was observed with NuSTAR during the outburst state, and again in a quiescent state wherein the 15--50 keV flux was 33 times lower. Using a multi-temperature plasma emission and reflection model, the highest plasma temperature in the accretion column was measured as 19.7+1.3-1.0~keV in outburst and 36.2+3.5-3.2~keV in quiescence. The significant change of the maximum temperature is considered to reflect an accretion-induced decrease of the inner-disk radius R in, where accreting gas is captured by the magnetosphere. Assuming this radius scales as R in M-2/7 where M is the mass accretion rate, we obtain R in = 1.9 +0.4-0.2~R WD and R in = 7.4+2.1-1.2~R WD in outburst and quiescence respectively, where R WD is the white-dwarf radius of this system. Utilising the measured temperatures and fluxes, as well as the standard mass-radius relation of white dwarfs, we estimate the white-dwarf mass as M WD = 0.87~~0.08~M including typical systematic uncertainties by 7%. The surface magnetic field is also measured as B 5 × 105~G. These results exemplify a new X-ray method of estimating M WD and B of white dwarfs by using large changes in M.