On the Relation Between Interstellar $\rm H_2O$ and $\rm H_3O^+$ Abundances

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Session 16 -- Molecular Clouds
Display presentation, Wednesday, January 12, 9:30-6:45, Salons I/II Room (Crystal Gateway)

[16.08] On the Relation Between Interstellar $\rm H_2O$ and $\rm H_3O^+$ Abundances

M. Opendak (U. Pennsylvania)

The interstellar chemistry of $\rm H_3O^+$ is considered. It is shown that within the boundaries of the model of Phillips, van Dishoeck and Keene (1992), the abundance of $\rm H_3O^+$ actually is not sensitive to the $\rm H_2O$, which is inconsistent with the original conclusion of this model. Several simple relationships are derived, which express the $\rm H_3O^+$ abundance as functions of the cosmic ray flux, $\zeta$, fractional ionization, X(e), and the abundances of other chemical species. Obtained formulae are applied to the cloud L134N to specify the values of $\zeta$, X(e), $\rm H_3\, ^+$ abundance and so on. Derived lower limits of $\zeta$ and X(e) are $1.1 \times 10^{-17}$ $\rm s^{-1}$ and $2.1 \times 10^{-8}$, respectively. $\rm H_3O^+$ fractional abundance ranges from $2.5 \times 10^{- 9}$ to $1.5 \times 10^{-8}$ in this cloud.

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