Formation of Resonant Atomic Lines during Thermonuclear Flashes on Neutron Stars
Abstract
Motivated by the measurement of redshifted Fe Hα lines during type I X-ray bursts on EXO 0748-676 (Cottam, Paerels & Mendez), we study the formation of atomic Fe lines above the photosphere of a bursting neutron star (kBT eff ≈ 1-2 keV). We discuss the effects of Stark broadening, resonant scattering and NLTE (level population) on the formation of hydrogenic Fe Hα, Lyα and Pα lines. From the observed equivalent width of the Fe Hα line, we find an implied Fe column of 1-3 × 1020 cm-2, which is 3-10 times larger than the Fe column calculated from the accretion/spallation model of Bildsten, Chang & Paerels. We also estimate that the implied Fe column is about a factor of 2-3 larger than a uniform solar metallicity atmosphere. We discuss the effects of rotational broadening and find that the rotation rate of must be slow, as confirmed by the recent measurement of a 45 Hz burst oscillation by Villarreal & Strohmayer. We also show that the Fe Lyα EW ≈ 15-20 eV (redshifted 11-15 eV) and the Pα EW ≈ 4-7 eV (redshifted 3-5 eV) when the Hα EW is 10 eV (redshifted 8 eV). The Lyα line is rotationally broadened to a depth of ≈ 10%, making it difficult to observe with Chandra. We also show that radiative levitation can likely support the Fe column needed to explain the line.
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