Abstract
The emission of thermal-energy muonium (Mu) was observed in vacuum from the surface of a platinum (Pt) foil at 1580 K with a yield of 4.7(6)% Mu per incident muon stopped in the foil, on the reasonable assumption of negligible Mu emission at T ≤ 1080 K. The yield at 1580 K was explained by one-dimensional diffusion of the positive muon inside bulk Pt, with a diffusion constant of 3.9(1) × 10 −3 cm 2s −1. Study of the temperature dependence of the Mu emission yielded an activation energy of 2.9(1) eV. Above 1580 K a decrease in Mu emission was caused by muon trapping in vacancies created thermally in Pt with a formation energy of 5.6(2) eV. In situ measurements of the surface of Pt with X-ray photoelectron spectroscopy verified that at most one monolayer of atomic oxygen was adsorbed onto the surface at 1580 K.
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