The Transition Zone in Balmer-Dominated Shocks

Abstract

We examine the structure of the post-shock region in supernova remnants (SNRs). The ``shock transition zone'' is set up by charge transfer and ionization events between atoms and ions, and has a width 1015 cm-2 n-10, where n0 is the total pre-shock density (including both atoms and ions). For Balmer-dominated SNRs with shock velocity vs 1000 km s-1, the Rankine-Hugoniot conditions for ion velocity and temperature are obeyed instantly, leaving the full width at half-maximum (FWHM) of the broad Hα line versus vs relation intact. However, the spatial variation in the post-shock densities is relevant to the problem of Lyα resonant scattering in young, core-collapse SNRs. Both two- (pre-shock atoms and ions) and three-component (pre-shock atoms, broad neutrals and ions) models are considered. We compute the spatial emissivities of the broad (b) and narrow (n) Hα lines; a calculation of these emissivities in SN 1006 is in general agreement with the computed ones of Raymond et al. (2007). The (dimensionless) spatial shift, shift, between the centroids of b and n is unique for a given shock velocity and fion, the pre-shock ion fraction. Measurements of shift can be used to constrain n0.