Collisional effects in the blue wing of Lyman-alpha

TL;DR

This paper improves the theoretical modeling of collisional effects on the blue wing of Lyman-alpha in white dwarf stars, incorporating relativistic corrections and comparing results with recent Hubble observations.

Contribution

It clarifies the asymptotic behavior of Sigma states with relativistic effects and provides an accurate theoretical analysis of hydrogen-perturber collisions affecting Lyman-alpha.

Findings

Relativistic effects are crucial for accurate long-range state descriptions.

Theoretical models match COS observations of the Lyman-alpha blue wing.

Assignment of a spectral feature at 1190 Å to specific collisional effects.

Abstract

Spectral observations below Lyman-alpha are now obtained with the Cosmic Origin Spectrograph (COS) on the Hubble Space Telescope (HST). It is therefore necessary to provide an accurate treatment of the blue wing of the Lyman-alpha line that enables correct calculations of radiative transport in DA and DBA white dwarf stars. On the theoretical front, we very recently developed very accurate H-He potential energies for the hydrogen 1s, 2s, and 2p states. Nevertheless, an uncertainty remained about the asymptotic correlation of the Sigma states and the electronic dipole transition moments. A similar difficulty occurred in our first calculations for the resonance broadening of hydrogen perturbed by collisions with neutral H atoms. The aim of this paper is twofold. First, we clarify the question of the asymptotic correlation of the Sigma states, and we show that relativistic contributions, even very tiny, may need to be accounted for a correct long-range and asymptotic description of the states because of the specific 2s 2p Coulomb degeneracy in hydrogen. This effect of relativistic corrections, inducing small splitting of the 2s and 2p states of H, is shown to be important for the Sigma-Sigma$ transition dipole moments in H-He and is also discussed in H-H. Second, we use existent (H-H) and newly determined (H-He) accurate potentials and properties to provide a theoretical investigation of the collisional effects on the blue wing of the Lyman-alpha line of H perturbed by He and H. We study the relative contributions in the blue wing of the H and He atoms according to their relative densities. We finally achieve a comparison with recent COS observations and propose an assignment for a feature centered at 1190 A.