The hydrogen-vacancy interaction in W and Mo was investigated by applying the perturbed angular correlation technique, using the isotope In-111 as a probe. Hydrogen trapping at InV2 manifests itself as a change of the vacancy-induced quadrupole frequency. We have observed trapping of up to two H atoms. The binding energies for the first H atom are 1.07(2) eV in Mo and 1.16(2) eV in W. These results are close to the values calculated with the effective-medium theory. The frequency shifts are both negative and amount to a few Mrad/s per trapped H atom. Contrary to the theoretical predictions, the binding energies for the second H atom differ strongly: 0.44(3) eV in Mo and 0.99(2) eV in W. The corresponding frequency shifts have opposite signs...
Clusters consisting of a radioactive probe atom and various point defects in metallic hosts were stu...
The interaction of H and He interstitial atoms with 1/2 and loops in tungsten (W) was studied by m...
AbstractThe results of calculations of stable configurations of atomic hydrogen in the tungsten bulk...
The hydrogen-vacancy interaction in W and Mo was investigated by applying the perturbed angular corr...
Vacancy-hydrogen interaction in molybdenum was investigated by means of the perturbed angular correl...
Hydrogen-vacancy interaction in tungsten was investigated by means of the perturbed angular correlat...
The helium-decorated In-vacancy complex InV2Hen in tungsten was studied with the aid of the perturbe...
Atomic scale modelling methods have been used to study the change in vacancy population when H is in...
We investigate superabundant vacancy formation induced by hydrogen (H) in tungsten (W) in terms of a...
We describe the parameterization of a tungsten-hydrogen empirical potential designed for use with la...
Formation energies for vacancy-hydrogen (V-H) complexes in tungsten (W) are calculated in terms of f...
The configuration of multiple hydrogen atoms trapped in a tungsten monovacancy is investigated using...
The quantum-mechanical states of hydrogen and deuterium in pure and defected nickel have been calcul...
Clusters consisting of a radioactive probe atom and various point defects in metallic hosts were stu...
Clusters consisting of a radioactive probe atom and various point defects in metallic hosts were stu...
The interaction of H and He interstitial atoms with 1/2 and loops in tungsten (W) was studied by m...
AbstractThe results of calculations of stable configurations of atomic hydrogen in the tungsten bulk...
The hydrogen-vacancy interaction in W and Mo was investigated by applying the perturbed angular corr...
Vacancy-hydrogen interaction in molybdenum was investigated by means of the perturbed angular correl...
Hydrogen-vacancy interaction in tungsten was investigated by means of the perturbed angular correlat...
The helium-decorated In-vacancy complex InV2Hen in tungsten was studied with the aid of the perturbe...
Atomic scale modelling methods have been used to study the change in vacancy population when H is in...
We investigate superabundant vacancy formation induced by hydrogen (H) in tungsten (W) in terms of a...
We describe the parameterization of a tungsten-hydrogen empirical potential designed for use with la...
Formation energies for vacancy-hydrogen (V-H) complexes in tungsten (W) are calculated in terms of f...
The configuration of multiple hydrogen atoms trapped in a tungsten monovacancy is investigated using...
The quantum-mechanical states of hydrogen and deuterium in pure and defected nickel have been calcul...
Clusters consisting of a radioactive probe atom and various point defects in metallic hosts were stu...
Clusters consisting of a radioactive probe atom and various point defects in metallic hosts were stu...
The interaction of H and He interstitial atoms with 1/2 and loops in tungsten (W) was studied by m...
AbstractThe results of calculations of stable configurations of atomic hydrogen in the tungsten bulk...