A Procedure for Correcting the Apparent Optical Depths of Moderately Saturated Interstellar Absorption Lines

Abstract

Most observations of absorption lines from interstellar and intergalactic matter have sufficient resolution to show most of the structure at differing radial velocities of the absorber. In analyzing the lines, however, it is important to sense and correct for the fact that some parts of a profile may have some very narrow structures that are saturated and then degraded by the convolution of the true spectrum by the instrumental profile. This can be done by comparing at each velocity the apparent optical depths of two lines that have significantly different transition probabilities. If their ratio is smaller than the ratio of the lines' values of f(lambda), the actual saturation is more severe than that indicated by the raw optical depths. This paper describes a simple procedure for selectively boosting apparent optical depth of the weaker of the two lines at each velocity value, so that unresolved saturated structure is accounted for, thus yielding a very nearly correct answer for the column density per unit velocity. Some test examples that demonstrate the use of the correction method are given, along with a simple recipe for invoking it.