Optical characterization of scintillating phosphate and silicates glasses i
s presented including absorption, emission spectra and decay kinetics. A ne
w concept of energy transfer sensitization is developed, based on nearly re
sonant energy migration through a rare earth ion subsystem (Gd3+ ions at su
fficiently high concentration) in the glass matrix, followed by a single-st
ep transfer towards the emission centers created by Ce3+ or Tb3+ doping. Wh
ile Ce3+ doping in phosphates results in emission spectra in the near UV-vi
olet, the Tb3+ doping in silicates gives a four-band spectrum with a domina
ting one at 545 nm. Intense UV irradiation produces a reduction of emission
intensity in phosphate glasses. (C) 2000 Elsevier Science B.V. All rights
reserved.