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Ternary Recombination of H-3(+) and D-3(+) with Electrons in He-H-2 (D-2) Plasmas at Temperatures from 50 to 300 K

Publication at Faculty of Mathematics and Physics |
2013

Abstract

We present results of plasma afterglow experiments on ternary electron ion recombination rate coefficients of H-3(+) and D-3(+) ions at temperatures from 50 to 300 K and compare them to possible three body reaction mechanisms Resonant electron capture into H-3* Rydberg states is likely to be the first step in the ternary recombination, rather than third-body-assisted capture. Subsequent interactions of the Rydberg molecules with ambient neutral and charged particles provide the rate-limiting step that completes the recombination.

A semiquantitative model is proposed that reconciles several previously discrepant experimental observations. A rigorous treatment of the problem will require additional theoretical work and experimental investigations.