The imaging atomhyphen;probe/field ion microscope has been used to study the trapping of lowhyphen;energy deuterium ions in tungsten. The experimental results indicate that implanted deuterium does not remain trapped in a tungsten lattice at room temperature for a period of several days unless a defect is present. Timehyphen;gated imaging atomhyphen;probe images show the first direct correlation between the trapped deuterium and the presence of a grain boundary on an atomic scale. Comparing these results to secondaryhyphen;ion mass spectrometer and nuclear reaction analyses of simultaneously exposed, flat tungsten, and silicon samples indicates that the imaging atomhyphen;probe is sensitive to low levels of hydrogen concentration at lattice defects that are invisible to these other two techniques. The implications of the experiment relating to tokamak plasmahyphen;wall and hydrogen embrittlement studies are discussed.
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