Bibcode
Elitzur, Moshe; Asensio Ramos, Andrés
Bibliographical reference
Monthly Notices of the Royal Astronomical Society, Volume 365, Issue 3, pp. 779-791.
Advertised on:
1
2006
Citations
55
Refereed citations
48
Description
We present a new method, the coupled escape probability (CEP), for exact
calculation of line emission from multi-level systems, solving only
algebraic equations for the level populations. The CEP formulation of
the classical two-level problem is a set of linear equations, and we
uncover an exact analytic expression for the emission from two-level
optically thick sources that holds as long as they are in the
`effectively thin' regime. In a comparative study of a number of
standard problems, the CEP method outperformed the leading line transfer
methods by substantial margins.
The algebraic equations employed by our new method are already
incorporated in numerous codes based on the escape probability
approximation. All that is required for an exact solution with these
existing codes is to augment the expression for the escape probability
with simple zone-coupling terms. As an application, we find that
standard escape probability calculations generally produce the correct
cooling emission by the CII 158-μm line but not by the 3P
lines of OI.