Abstract
ABSTRACT In intermediate polars (IPs), the intrinsic thermal emissions from white dwarfs (WDs) have typically been studied. Few reports have analysed X-ray reflections from WDs. We recently developed an elaborate IP-reflection spectral model. Herein, we report the first application of a reflection model with an IP thermal model to the spectra of the brightest typical IP V1223 Sagittarii observed by the Suzaku and Nuclear Spectroscopic Telescope Array satellites. The model reasonably reproduces the spectra within the range of 5–78 keV and estimates the WD mass as 0.92 ± 0.02 M⊙. The WD mass estimated by the proposed model is consistent with that measured using an active galactic nucleus reflection model and a partial covering absorption model. However, the choice of incorrect parameter values, such as an unsuitable fitting energy band and an incorrect metal abundance, was found to introduce systematic errors (e.g. ≲0.2 M⊙ in the WD mass) in the WD mass measurement. Our spin-phase-resolved analysis resulted in discoveries regarding the modulations of the equivalent width of the fluorescent iron K α line and the angle between the post-shock accretion column and the line of sight (viewing angle). The viewing angle anticorrelates approximately with the X-ray flux and has average and semi-amplitude values of 55° and 7°, respectively, which points towards two WD spin axis angles from the line of sight of 55° and 7°, respectively. Both estimated spin axis angles are different from the reported system inclination of 24°.
Highlights
Cataclysmic variables (CVs) are close binary systems consisting of a companion late-type main-sequence star and a white dwarf (WD)
We applied the newly developed intermediate polars (IPs) X-ray thermal and reflection spectral models to the V1223 Sgr combined spectrum collected from the Suzaku satellite in 2007 and 2014, and the nuclear spectroscopic telescope array (NuSTAR) satellite in 2014
We compared our model with an active galactic nuclei (AGN) reflection model, and a partial covering absorption model
Summary
Cataclysmic variables (CVs) are close binary systems consisting of a companion late-type main-sequence star and a white dwarf (WD). The reflection spectrum has distinctive features: fluorescent iron Kα lines, a Compton hump at approximately 10–30keV, and Compton shoulders following the emission lines These features enable us to study the geometry between a PSAC and a WD. The reflection model has five fitting parameters: the WD mass (MWD), specific accretion rate (a), elemental abundance (Z), the angle between the PSAC and line of sight (i), and normalization. These parameters are common to the IP thermal model of Hayashi & Ishida (2014a).
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