Evidence for Line Broadening by Electron Scattering in the Broad Line Region of NGC 4395
Abstract
A high quality Keck spectrum of the Halpha line in NGC 4395 reveals symmetric exponential wings, fv e-v/sigma, with sigma~500km/s. The wings extend out to >2500km/s from the line core, and down to a flux density of <10-3 of the peak flux density. Numerical and analytic calculations indicate that exponential wings are expected for optically thin, isotropic, thermal electron scattering. Such scattering produces exponential wings with sigma=1.1sigmae(ln taue-1)0.45, where sigmae is the electron velocity dispersion, and taue is the electron scattering optical depth. The Halpha wings in NGC 4395 are well fit by an electron scattering model with taue=0.34, and an electron temperature Te=1.1x104K. Such conditions are produced in photoionized gas with an ionization parameter U=0.3, as expected in the broad line region (BLR). Similar analysis of the [O III] 5007 line yields taue<0.01, consistent with the lower ionization in the narrow line region. If the electron scattering interpretation is correct, there should be a tight correlation between taue and the ionizing flux on time scales shorter than the BLR dynamical time, or ~1 week for NGC 4395. In contrast, the value of sigma should remain nearly constant on these time scales. Such wings may be discernible in other objects with unusually narrow Balmer lines, and they can provide a useful direct probe of Te and taue in the BLR.
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.