ION-BEAM-INDUCED LUMINESCENCE OF TB-IMPLANTED SAPPHIRE

A study has been made of the luminescence during He- or Ar-ion bombard ment to Tb-implanted Al2O3, Tb-ions of 100 keV were implanted in color less and transparent single crystal alpha-Al2O3 at a dose of 5 x 10(15 ) Tb/cm(2) nearly at room temperature. The implanted specimens were an nealed in a nitrogen gas atmosphere at 800 for 1 h. The luminescence s pectra were measured during 100 keV-Ar or 50 keV-He bombardment of the specimens using a spectrometer with three optical filters and a photo multiplier, The beam current densities ranged from 0.01 to 0.1 mu A/cm (2). The spectra emitted by Ar bombardment of Tb-implanted specimens a re almost the same as those by He bombardment, except for the peaks co rresponding to defects in the sapphire itself. The luminescence has fo ur clear peaks identified as emission due to D-F transitions of the Tb 3+ state, and its color is green due to the strongest peak at 550 nm, Annealing results in the increase of luminescence. He bombardment caus es the peaks to be stronger than Ar bombardment, The peak intensity of luminescence rises in proportion as the He-ion beam current density i ncreases, From the results, it is concluded that ion beam induced lumi nescence of Tb-implanted Al2O3 becomes stronger by annealing and He bo mbardment with a high current.