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Title
Japanese: 
English:Improvements in quantum efficiency of excitonic emissions in ZnO epilayers by the elimination of point defects 
Author
Japanese: 秩父 重英, 尾沼 猛儀, 久保田 将司, 上殿 明良, 宗田 孝之, 塚崎 敦, 大友 明, 川崎 雅司.  
English: S. F. Chichibu, T. Onuma, M. Kubota, A. Uedono, T. Sota, A. Tsukazaki, A. Ohtomo, M. Kawasaki.  
Language English 
Journal/Book name
Japanese: 
English:Journal of Applied Physics 
Volume, Number, Page Vol. 99    No. 9    093505-1-6
Published date May 2006 
Publisher
Japanese: 
English: 
Conference name
Japanese: 
English: 
Conference site
Japanese: 
English: 
Official URL <Go to ISI>://000237682900025
 
DOI https://doi.org/10.1063/1.2193162
Abstract The internal quantum efficiency (eta(int)) of the near-band-edge (NBE) excitonic photoluminescence (PL) in ZnO epilayers was significantly improved by eliminating point defects, as well as by the use of ZnO high-temperature-annealed self-buffer layer (HITAB) on a ScAlMgO4 substrate as epitaxial templates. Negatively charged Zn vacancy (V-Zn) concentration was greatly reduced by high-temperature growth, and slower postgrowth cooling (annealing) under minimum oxygen pressure further reduced the gross concentration of positively and negatively charged and neutral point defects, according to the suppression of nonequilibrium defect quenching. The nonradiative PL lifetime (tau(nr)) at room temperature was increased by decreasing the gross concentration of point defects, as well as by decreasing the concentration of V-Zn. Accordingly, certain point defect complexes incorporated with V-Zn (V-Zn-X complexes) are assigned to the dominant nonradiative recombination centers. As a result of the elimination of point defects, a record long tau(nr) (3.8 ns) at 300 K was demonstrated. Because the radiative lifetime (tau(r)) is in principle constant in bulk and epitaxial ZnO, the increase in tau(nr) gave rise to the increase in eta(int). Rich structures originating from exciton-polaritons and excited states of excitons were eventually observed in the low-temperature PL spectrum of the improved ZnO epilayer on HITAB, of which eta(int) of the NBE emission was 6.3% at 300 K.

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