Helium diffusion in metals observed by radioactive atoms using PAC

1 January 1983

journal article
research article
Published by Taylor & Francis in Radiation Effects

Vol. 78 (1) , 177-188
https://doi.org/10.1080/00337578308207370

Abstract

The suitability of the perturbed γγ angular correlation technique (PAC) for studies of the diffusion behaviour of He in metals is discussed. Using the example of He implanted into stainless steel, some features of the PAC using ¹¹¹In as radioactive probe atom are demonstrated. The results are compared with those in Ni, Cu and Au also obtained by PAC.

Keywords

This publication has 7 references indexed in Scilit:

Interpretation of vacancy migration, trapping, and clustering in fcc metals as observed through perturbed angular correlations and distributions of $γ$ rays
Physical Review B, 1982
Structure of lattice defects trapped at in impurities in He-doped Ni and Cu
Hyperfine Interactions, 1981
The influence of helium decorated vacancy clusters on the hyperfine interaction of impurities in metals
Hyperfine Interactions, 1981
Structure of lattice defects trapped at In impurities in He-doped Ni and Cu crystals derived from perturbed angular correlation measurements
Physics Letters A, 1980
Range profiles and thermal release of helium implanted into various metals
Journal of Nuclear Materials, 1979
Impurity-defect configurations in ion-irradiated copper studied by the DPAC-technique with111In
Zeitschrift für Physik B Condensed Matter, 1978
Proton backscattering as a technique for light ion surface interaction studies in CTR materials investigations
Journal of Nuclear Materials, 1974