Article ID Journal Published Year Pages File Type
5431242 Molecular Astrophysics 2016 6 Pages PDF
Abstract

The elemental abundance of deuterium to normal hydrogen in the universe is on the order of 10−5. A random distribution would therefore give a ratio of triply deuterated ammonia, ND3, to NH3 of 10−15. Observations indicate an ND3 to NH3 ratio of roughly 10−3, implying enrichment of triply deuterated ammonia by about twelve orders of magnitude. A simple model, based on the elemental abundances of N, D and H, is developed and solved analytically. At zero temperature the expressions are particularly simple. Effects of finite temperature are included through the partition functions of the isotopologues. It is found that the effect of finite temperature is modest in the temperature range 10-100 K. The results of the model are in good agreement with the observed abundances so local thermal equilibrium may therefore be a reasonable approximation and thus also be an explanation for the apparent enrichment of deuterated isotopologues.

Related Topics
Physical Sciences and Engineering Chemistry Spectroscopy
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