Atomistics of helium diffusion in copper and tungsten |
| |
Authors: | W. D. Wilson C. L. Bisson |
| |
Affiliation: | Sandia Laboratories , Livermore, California, 94550 |
| |
Abstract: | Using previously determined interatomic potentials, the activation energy for migration of a single substitutional helium atom in copper and tungsten has been determined. The mechanism of migration involves the jump of the helium atom out of the vacancy concurrent with the jump of a host atom into that vacancy. The helium then occupies the vacant site created by the jumping host atom, resulting in a substitutional helium at a distance of √2 r 0 (√3r 0) from its original site in copper (tungsten). The rate-limiting step in the process is found to be the jump of the helium out of the vacancy, the activation energy for which is 2.15 eV in copper and 4.69 eV in tungsten. |
| |
Keywords: | EPR spectra Optical absorption spectra Octahedral Mn(II) resonances Fe(II) + magnesite mineral |
|
|