On the Center Shifts of Raman Scattered He II and Hα Wings in Symbiotic Stars

Abstract

Using a Monte Carlo technique, we investigate the center shifts that are expected to occur for the broad Hα wings and the He II λ 6545 feature as a function of the neutral hydrogen column density in symbiotic stars.These two features are proposed to be formed via Raman scattering of UV continuum around Lyβ and He II λ 1025 emission line by neutral hydrogen. The branching ratio of Raman scattering to Rayleigh scattering for UV radiation around Lyβ is a non-linearly increasing function of the wavelength, which results in enhanced Raman optical fluxes redward of the Hα line center as NHI increases. However, we find that the amount of wing center shift is quite small about 20 km s-1 as NHI increases from 1020 cm-2 to 1021 cm-2. Assuming that He II λ~1025 emission is characterized by a Gaussian profile, the Raman scattered He II 6545 feature exhibits near Gaussian profiles with the peak shifted redward for NHI<1022 cm-2. The redward center shift amounts to 1 for NHI 1020 cm-2 and decreases as NHI increases up to NHI 1022 cm-2, above which no center shift is observed. The redward peak shift is due to the fact that the incident emission profile is symmetric with respect to He II λ~1025 line center whereas the Raman conversion rate is increasing towards the line center of Lyβ. We emphasize that the determination of NHI by locating the exact peak position of the He II 6545 feature will lift the degeneracy to allow a more accurate estimate of the covering factor of the neutral region, providing strong constraints on the mass loss process occurring in symbiotic stars.

0

Turn this paper into a full lesson

ArcXiv compiles a staged curriculum from this paper: 8-12 lessons across beginner → advanced, synthesised section guides, visuals, flashcards, a quiz, exercises, and on-demand deep dives per section. Grounded in the abstract, never invented.

Discussion (0)

Sign in to join the discussion.

Loading comments…