Spectral Line Profile

Although quantum mechanics suggests that a transition between energy levels will produce a spectral line at a discrete wavelength, there are a number of processes which can lead to a broadening of the lines. These include:

For an emission line, we can measure the spectral line profile relative to zero intensity, while for an absorption line, we can measure the spectral line profile relative to the continuum level. An absorption feature that extends to zero intensity is considered saturated. The images below show absorption features in a stellar spectrum (a G5IV star) and both emission and absorption features in a galaxy spectrum (an S7 spiral galaxy).

starspectrum.jpg
The spectrum of a G5IV star showing absorption line features below the level of the star’s blackbody continuum spectrum. Wavelength is measured in angstroms, while the flux is in arbitrary units.
Dataset: VizieR catalogue III/219, Spectral Library of Galaxies, Clusters and Stars (Santos et al. 2002)

galaxyspectrum.jpg
The spectrum of an S7 Spiral Galaxy showing emission and absorption line features either side of the continuum. Wavelength is measured in angstroms, while the flux is in arbitrary units.
Dataset: VizieR catalogue III/219, Spectral Library of Galaxies, Clusters and Stars (Santos et al. 2002)

A useful way to compare the strength of absorption lines is by determining their equivalent width.


Study Astronomy Online at Swinburne University
All material is © Swinburne University of Technology except where indicated.