Abstract
A new series of computations has been performed to obtain cross-sections and rate coefficients for state-to-state rotational transitions in the H|$_{2}^{+}$| ion, induced by collisions with very low-energy electrons. Following our recent work on the HD+ ion (Motapon et al. 2014), and using the same molecular structure data sets, excitations |$N_{i}^{+} \rightarrow$||$N_{i}^{+}+2$| for |$N_{i}^{+}=0$| to 10, and de-excitations |$N_{i}^{+}$| → |$N_{i}^{+}-2$|, for |$N_{i}^{+}=2$| to 10, in the energy range 0.01 meV–0.3 eV, have been explored. The calculated cross-sections have been convolved in order to obtain Maxwell rate coefficients for electronic temperatures up to a few hundred of Kelvin. Moreover, Maxwell rate coefficients for dissociative recombination have been calculated for the same initial rotational levels.
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