InGaN/AIlnGaN superlattice (SL) is designed as the electron blocking layer (EBL) of an InGaN/GaN-based light- emitting diode (LED). The energy band structure, polarization field at the last-GaN-barrier/EBL inter...InGaN/AIlnGaN superlattice (SL) is designed as the electron blocking layer (EBL) of an InGaN/GaN-based light- emitting diode (LED). The energy band structure, polarization field at the last-GaN-barrier/EBL interface, carrier concen- tration, radiative recombination rate, electron leakage, internal quantum efficiency (IQE), current-voltage (l-V) perfor- mance curve, light output-current (L-l) characteristic, and spontaneous emission spectrum are systematically numerically investigated using APSYS simulation software. It is found that the fabricated LED with InGaN/AIInGaN SL EBL exhibits higher light output power, low forward voltage, and low current leakage compared with those of its counterparts. Meanwhile, the efficiency droop can be effectively mitigated. These improvements are mainly attributed to the higher hole injection efficiency and better electron confinement when InGaN/AIlnGaN SL EBL is used.展开更多
基金supported by the National Natural Science Foundation of China(Grant No.51172079)the Science and Technology Program of Guangdong Province,China(Grant Nos.2010B090400456 and 2010A081002002)the Science and Technology Program of Guangzhou City,China(Grant No.11A52091257)
文摘InGaN/AIlnGaN superlattice (SL) is designed as the electron blocking layer (EBL) of an InGaN/GaN-based light- emitting diode (LED). The energy band structure, polarization field at the last-GaN-barrier/EBL interface, carrier concen- tration, radiative recombination rate, electron leakage, internal quantum efficiency (IQE), current-voltage (l-V) perfor- mance curve, light output-current (L-l) characteristic, and spontaneous emission spectrum are systematically numerically investigated using APSYS simulation software. It is found that the fabricated LED with InGaN/AIInGaN SL EBL exhibits higher light output power, low forward voltage, and low current leakage compared with those of its counterparts. Meanwhile, the efficiency droop can be effectively mitigated. These improvements are mainly attributed to the higher hole injection efficiency and better electron confinement when InGaN/AIlnGaN SL EBL is used.