Abstract
GaN based light emitting diodes with specially designed low temperature (LT) transition layers are investigated. Theoretical simulation shows that the LT-pGaN with LT-InGaN/GaN superlattice composite transition layer structure can effectively alleviate polarization field in the active layer and p-n junction region, consequently enhancing hole injection efficiency and electron blocking capability. Furthermore, the experimental results demonstrate that the low temperature (LT) transition layers can protect the active region from detrimental thermal annealing effect during high temperature p-GaN growth process. Finally, the reduced forward voltage and the enhanced output power about 42.2% were achieved at the injection current of 200mA.
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