We continue our work on developing techniques for studying turbulence with
spectroscopic data. We show that Doppler-broadened absorption spectral lines,
in particularly, saturated absorption lines, can be used within the framework
of the earlier-introduced technique termed the Velocity Coordinate spectrum
(VCS). The VCS relates the statistics of fluctuations along the velocity
coordinate to the statistics of turbulence, thus it does not require spatial
coverage by sampling directions in the plane of the sky. We consider lines with
different degree of absorption and show that for lines of optical depth less
than one, our earlier treatment of the VCS developed for spectral emission
lines is applicable, if the optical depth is used instead of intensity. This
amounts to correlating the logarithms of absorbed intensities. For larger
optical depths and saturated absorption lines, we show, that the amount of
information that one can use is, inevitably, limited by noise. In practical
terms, this means that only wings of the line are available for the analysis.
In terms of the VCS formalism, this results in introducing an additional
window, which size decreases with the increase of the optical depth. As a
result, strongly saturated absorption lines carry the information only about
the small scale turbulence. Nevertheless, the contrast of the fluctuations
corresponding to the small scale turbulence increases with the increase of the
optical depth, which provides advantages for studying turbulence combining
lines with different optical depths. Combining different absorption lines one
can tomography turbulence in the interstellar gas in all its complexity.Comment: 12 pages, 2 figure