Hydrogen-vacancy complexes in electron-irradiated niobium

Jakub Čížek, Ivan Procházka, Stanislav Daniš, Gerhard Brauer, Wolfgang Anwand, Ryota Gemma, Eugen Nikitin, Reiner Kirchheim, Astrid Pundt, Rinat K. Islamgaliev
2009 Physical Review B  
The aim of the present work was to investigate the microstructure of bulk niobium irradiated by 10 MeV electrons. Positron-annihilation spectroscopy was employed as a principal technique for the characterization of irradiation-induced defects. Experimental results were compared to first-principles theoretical calculations of positron characteristics. In addition to extended positron-annihilation studies, the specimens were characterized also by x-ray diffraction. It was found that
more » ... duced vacancies are surrounded by hydrogen. Complexes consisting of a Nb vacancy surrounded by one and two H atoms were identified in the irradiated specimens. The concentration of these vacancy-hydrogen complexes was estimated to be ͑18-24͒ ϫ 10 −5 at. %. Vacancy-2H complexes are found to represent the dominating type of defects. Hydrogen atoms surrounding a Nb vacancy cause a shortening of the lifetime of trapped positrons. Moreover, it was demonstrated that hydrogen attached to Nb vacancy can be identified by coincidence Doppler broadening technique. The effect of a thin Pd ͑or Cr͒ overlayer on the irradiation-induced defects was investigated also. It was found that the relative fraction of vacancy-2H complexes is higher in the specimens irradiated with such an overlayer.
doi:10.1103/physrevb.79.054108 fatcat:632la5nty5ddzc4ai2gioldq2u