Degradation of ZnS and Y2O2S cathodoluminescent (CL) phosphors has been stu
died at 1-4 keV using Auger electron spectroscopy simultaneous with CL. The
data are consistent with an electron stimulated surface chemical reaction
(ESSCR) which led to destruction of ZnS and formation of a surface nonlumin
escent ZnO layer as well as injection of oxygen point defects into the near
-surface region. In the case of Y2O2S:Eu, the electron beam stimulated remo
val of S and formation of Y2O3:Eu in the presence of 1x10(-6) Torr of oxyge
n. A model is presented which predicts that degradation by the ESSCR should
increase with pressure in the vacuum, depend exponentially on electron dos
e, increase as the primary beam energy was reduced below 4 keV, and depend
upon the type of gas present in the vacuum. These trends were demonstrated
from the experimental data. (C) 2000 American Institute of Physics. [S0021-
8979(00)04113-X].