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Fe xvii 2p–3s Line Ratio Diagnostic of Shock Formation Radius in O Stars

2021; IOP Publishing; Volume: 917; Issue: 2 Linguagem: Inglês

10.3847/1538-4357/ac0890

1538-4357

Gabriel J. Grell, Maurice A. Leutenegger, Chintan Shah,

Atomic and Molecular Physics

The $2p$-$3s$ lines of Fe XVII in the X-ray spectrum of the O-type star $\zeta$ Puppis exhibit an anomalous (3G + M2)/(3F) line ratio of $\sim$1.4, in comparison with $\sim$2.4 for almost all other collisionally excited astrophysical spectra. Based on the work of Mauche et al. (2001), we conjectured that the strong UV field of $\zeta$ Puppis produces the observed ratio by depopulation of metastable $3s$ excited states, and that the ratio can potentially be used as an independent diagnostic of plasma formation radius. We used the Flexible Atomic Code (FAC) collisional-radiative model to model the effect of UV photoexcitation from O stars on the Fe XVII lines. We compared our model calculations to archival spectra of coronal and hot stars from the Chandra HETGS and XMM-Newton RGS to benchmark our calculations for various electron densities and UV field intensities. Our calculations show that UV photoexcitation does not produce a sufficiently large dynamic range in the 3F/(3F + 3G + M2) fraction to explain the difference in the observed ratio between coronal stars and $\zeta$ Pup. Thus, this effect likely cannot explain the observed line ratio of $\zeta$ Pup, and its origin is still unexplained.