Abstract
Epitaxial thin single-crystal (100) tungsten films 1000, 2500, and 5000 Å thick have been fabricated by high-vacuum electron-beam evaporation. These films were subsequently used as thin-film moderators for the study of the positron-transmission-reemission process with a variable-energy (0–80 keV) monoenergetic positron beam in an ultrahigh-vacuum system. The films were shown to be routinely cleanable by heating first in oxygen ( Torr) and then in vacuum ( Torr). Transmission and back reemission of slow positrons from these surfaces was observed. The positron work function, has been determined to be ≃3.0 eV (±0.3 eV). The transmission slow positrons were emitted in a narrow cone with a full width at half maximum of ≃30° consistent with the angular distribution of back-reemission positrons. The reemitted yields as a function of incident positron energy were found to be very different between forward reemission and back reemission. The maximum forward-reemission yields were 18% for 1000-Å-thick W film and 12% for 2500-Å-thick W film at 5 and 10 keV optimum incident positron energies, respectively. These results show that one can use thin single-crystal tungsten films as positron moderators or remoderators.
- Received 22 October 1984
DOI:https://doi.org/10.1103/PhysRevB.31.4123
©1985 American Physical Society