3D Hydrodynamic & Radiative Transfer Models of X-ray Emission from Colliding Wind Binaries

Abstract

Colliding wind binaries (CWBs) are unique laboratories for X-ray astrophysics. The massive stars in these systems possess powerful stellar winds with speeds up to 3000 km s-1, and their collision leads to hot plasma (up to 108K) that emit thermal X-rays (up to 10 keV). Many X-ray telescopes have observed CWBs, including Suzaku, and our work aims to model these X-ray observations. We use 3D smoothed particle hydrodynamics (SPH) to model the wind-wind interaction, and then perform 3D radiative transfer to compute the emergent X-ray flux, which is folded through X-ray telescopes' response functions to compare directly with observations. In these proceedings, we present our models of Suzaku observations of the multi-year-period, highly eccentric systems η Carinae and WR 140. The models reproduce the observations well away from periastron passage, but only η Carinae's X-ray spectrum is reproduced at periastron; the WR 140 model produces too much flux during this more complicated phase.