Chemical origin of the yellow luminescence in GaN
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Kucheyev, Sergei
Toth, M
Phillips, Matthew R
Williams, James S
Jagadish, Chennupati
Li, Gang
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American Institute of Physics
Abstract
The influence of ion-beam-produced lattice defects as well as H, B, C, N, O, and Si, introduced by
ion implantation, on the luminescence properties of wurtzite GaN is studied by
cathodoluminescence spectroscopy. Results indicate that intrinsic lattice defects produced by ion
bombardment mainly act as nonradiative recombination centers and do not give rise to the yellow
luminescence (YL) of GaN. Experimental data unequivocally shows that C is involved in the
defect-impurity complex responsible for YL. In addition, C-related complexes appear to act as
efficient nonradiative recombination centers. Implantation of H produces a broad luminescent peak
which is slightly blueshifted with respect to the C-related YL band in the case of high excitation
densities. The position of this H-related YL peak exhibits a blueshift with increasing excitation
density. Based on this experimental data and results reported previously, the chemical origin of the
YL band is discussed.
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Journal of Applied Physics 91.9 (2002): 5867-74
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Journal of Applied Physics
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