Muonium addition reactions in the gas phase: Quantum tunneling in Mu+C2H4 and Mu+C2D4

Abstract

The reaction kinetics for the addition of the muonium (Mu=μ⁺e⁻) atom to C₂H₄ and C₂D₄ have been measured over the temperature range 150–500 K at (N₂) moderator pressures near 1 atm. A factor of about 8 variation in moderator pressure was carried out for C₂H₄, with no significant change seen in the apparent rate constant k_app, which is therefore taken to be at the high pressure limit, yielding the bimolecular rate constant k_Mu for the addition step. This is also expected from the nature of the μSR technique employed, which, in favorable cases, gives k_app=k_Mu at any pressure. Comparisons with the H atom data of Lightfoot and Pilling, and Sugawara et al. and the D atom data of Sugawara et al. reveal large isotope effects. Only at the highest temperatures, near 500 K, is k_Mu/k_H given by its classical value of 2.9, from the mean velocity dependence of the collision rate but at the lowest temperatures k_Mu/k_H≳30/1 is seen, reflecting the pronounced tunneling of the much lighter Mu atom (m_μ=1/9 m_p). The present Mu results should provide accurate tests of reaction theories on currently available ab initio surfaces.