Effect of Quantum Barrier Thickness in the Multiple-Quantum-Well Active Region of GaInN/GaN Light-Emitting Diodes
Photonics Journal, IEEE(2013)
摘要
The dependence of the polarization-induced electric field in GaInN/GaN multiple-quantum-well light-emitting diodes (LEDs) on the GaN quantum barrier (QB) thickness is investigated. Electrostatic arguments and simulations predict that a thin QB thickness reduces the electric field in the quantum wells (QWs) and also improves the LED efficiency. We experimentally demonstrate that the QW electric field decreases with decreasing QB thickness. The lower electric field results in a better overlap of electron and hole wave functions and better carrier confinement in the QWs. A reduced efficiency droop and enhanced internal quantum efficiency is demonstrated for GaInN/GaN LEDs when the QB thickness is reduced from 24.5 to 9.1 nm.
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关键词
iii-v semiconductors,electrostatics,gallium compounds,indium compounds,light emitting diodes,light polarisation,semiconductor quantum wells,wide band gap semiconductors,gainn-gan,led,qw electric field,carrier confinement,efficiency droop,electron wave function,hole wave function,internal quantum efficiency,light-emitting diodes,multiple-quantum-well active region,polarization-induced electric field,quantum barrier thickness,light emitting diode,gallium nitride
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