White dwarf masses in intermediate polars observed with the Suzaku satellite

TL;DR

This study uses Suzaku X-ray data to accurately measure white dwarf masses in intermediate polars, revealing an average mass of 0.88 solar masses and confirming sub-solar iron abundances with improved precision.

Contribution

First detailed mass measurements of 17 intermediate polars using broad-band X-ray spectroscopy with improved accuracy and iron abundance estimates.

Findings

Average WD mass is 0.88 Msun.

First mass estimate for IGR J17195-4100 (1.03 Msun).

Confirmed sub-solar iron abundance in all sources.

Abstract

Context. White dwarfs (WDs) in cataclysmic variables (CVs) are important experimental laboratories where the electron degeneracy is taking place on a macroscopic scale. Magnetic CVs increase in number especially in the hard X-ray band (>10 keV) thanks to sensitive hard X-ray missions. Aims. From X-ray spectroscopy, we estimate the masses of nearby WDs in moderately-magnetized CVs, or Intermediate Polars (IPs). Methods. Using the Suzaku satellite, we aquired wide-band spectra of 17 IPs, covering 3-50 keV. An accretion column model of Suleimanov et al. (2005) and an optically-thin thermal emission code were used to construct a spectral emission model of IPs with resolved Fe emission lines. By simultaneously fitting the Fe line complex and the hard X-ray continuum of individual spectra, the shock temperature and the WD mass were determined with a better accuracy than in previous studies. Results. We determined the WD masses of the 17 IPs with statistical fitting errors of ~0.1-0.2 Msun in many cases. The WD mass of a recently-found IP, IGR J17195-4100, was also estimated for the first time (1.03+0.24-0.22 Msun). The average WD mass of the sample is 0.88 \pm 0.25 Msun. When our results were compared with previous X-ray mass determinations, we found significant deviation in a few systems although the reason of this is unclear. The iron abundance of the accreting gas was also estimated, and confirmed the previously reported sub-solar tendency in all sources with better accuracy.