Optical properties of wurtzite ZnO bulk single crystals in which an arbitrary

number (typically 109 to 1010/cm2) of fresh dislocations were introduced

intentionally by the plastic deformation at 923 to 1073K were examined. Deformed

specimens showed excitonic light emission with photon energies of 3.100 and

3.345eV, as well as their LO phonon replicas at 11K. The light intensities increased

with increasing dislocation density. The activation energy for a thermal quenching

of the 3.100 or 3.345eV emission band, which corresponds to the depth of the

localized energy level associated with the emission band, was estimated to be 0.3

or 0.05eV, respectively. The origin of the energy levels was proposed as point

defect complexes involving dislocations. The introduction of the dislocations at

above 923K did not influence the intensities of the emission bands except the

dislocation-related emission bands.

Optical Properties of Dislocations in Wurtzite ZnO Single Crystals Introduced at

Elevated Temperatures. Y.Ohno, H.Koizumi, T.Taishi, I.Yonenaga, K.Fujii,

H.Goto, T.Yao: Journal of Applied Physics, 2008, 104[7], 073515