Numerical study on quantum efficiency enhancement of a light-emitting diode based on surface plasmon coupling with a quantum well
Journal
IEEE Photonics Technology Letters
Journal Volume
20
Journal Issue
16
Pages
1339-1341
Date Issued
2008-08
Author(s)
Abstract
We demonstrate the numerical study results of the enhancements of internal quantum efficiency (IQE) and external quantum efficiency (EQE) of a semiconductor quantum well when it is coupled with surface plasmons (SPs) induced on a grating interface between Ag and semiconductor. The IQE and EQE enhancements depend on the emission dipole position and the assigned intrinsic IQE. The SP dissipation in metal and the grazing-angle SP radiation lead to a significant difference between IQE and EQE. The enhancement of EQE is less significant when the intrinsic IQE becomes larger. In applying the SP coupling phenomenon to an InGaN-GaN quantum-well light-emitting diode, the efficiency enhancement is more significant in the green-red range, in which the intrinsic IQE is normally quite low. © 2008 IEEE.
Subjects
Light-emitting diodes; Quantum wells (QWs); Surface waves
Other Subjects
Electric conductivity; Gallium nitride; Light emission; Light emitting diodes; Metals; Nanolithography; Numerical analysis; Optical data storage; Plasmons; Semiconducting gallium; Semiconductor diodes; Semiconductor materials; Semiconductor quantum dots; Semiconductor quantum wells; Semiconductor quantum wires; Silver; Coupling phenomenon; Efficiency enhancement; External quantum efficiency; Internal quantum efficiency; Light-emitting diode; Numerical studies; Quantum wells; Quantum wells (QWs); Surface plasmon coupling; Surface plasmons; Surface waves; Quantum efficiency
Type
journal article