PARAMAGNETIC ELECTRON TRAPS IN REDUCED STABILIZED ZIRCONIA

We have identified the impurity defect responsible for the trigonal pa ramagnetic signal (T defect, g(parallel to) = 1.989 and g(perpendicula r to) = 1.852) and yellow coloration observed whenever a cubic zirconi a sample (yttrium or calcium stabilized) undergoes chemical reduction or irradiation treatments. We have prepared single crystals of yttria- doped zirconia with small controlled amounts of titanium impurity rang ing from 0.01 to 0.1 at %. After reduction a perfect correlation betwe en the intensity of the T-defect signal and Ti concentration is obtain ed, which rules out previous models based on the assumption of an intr insic origin for that defect. Rather, T defects are due to Ti3+ impuri ty ions which are also responsible for other paramagnetic signals in t he same g < 2 range with symmetry lower than trigonal. The (perpendicu lar to) value of the T defect and its linewidth vary with Y2O3 concent ration. Some defect models are tentatively proposed.