Carrier injection and radiative recombination processes in InGaN/GaN blue light emitting diodes are investigated by bias-dependent cathodoluminescence. The samples are designed with a single-quantum-well (SQW) light emitter and an adjacent multi-quantum-well (MQW) carrier injector of lower In content. In unbiased samples, the MQW emission dominates over the SQW at high temperatures (T>160 K) or low beam currents (IB<5 nA). This is ascribed to changes in the device energy band diagram, dependent on the field in the p-n junction and on the level of electron beam induced excitation of excess carriers. A field screening, resulting in a forward biasing of the devices, is highlighted. A maximum value of +2.65 V is reached at T=100 K for a carrier generation rate G0 5.4x10^13 s^−1. At a fixed electron beam power, the effects of an external applied field on the emitter efficiency are considered. The SQW emission is promoted in the forward-current regime, while in the reverse-current regime (−1<=V<2.65 at T=100 K) it undergoes a quenching of at least one order of magnitude and a blueshift (60 meV at T=100 K) due to a partial compensation between the junction field and the internal piezoelectric field (minimum residual field of about 1.9 MV/cm at T=100 K). The observed blueshift is in a fairly good agreement with the voltage dependence predicted by calculating the energy band profiles and SQW confined states with a self-consistent Schrödinger–Poisson solver

Field dependence of the carrier injection mechanisms in InGaN Quantum wells: Its effect on the luminescence properties of blue light emitting diodes / F., Rossi; G., Salviati; Pavesi, Maura; Manfredi, Manfredo; M., Meneghini; E., Zanoni; U., Zehnder. - In: JOURNAL OF APPLIED PHYSICS. - ISSN 0021-8979. - 103:9(2008), p. 93504. [10.1063/1.2178856]

Field dependence of the carrier injection mechanisms in InGaN Quantum wells: Its effect on the luminescence properties of blue light emitting diodes

PAVESI, Maura;MANFREDI, Manfredo;
2008-01-01

Abstract

Carrier injection and radiative recombination processes in InGaN/GaN blue light emitting diodes are investigated by bias-dependent cathodoluminescence. The samples are designed with a single-quantum-well (SQW) light emitter and an adjacent multi-quantum-well (MQW) carrier injector of lower In content. In unbiased samples, the MQW emission dominates over the SQW at high temperatures (T>160 K) or low beam currents (IB<5 nA). This is ascribed to changes in the device energy band diagram, dependent on the field in the p-n junction and on the level of electron beam induced excitation of excess carriers. A field screening, resulting in a forward biasing of the devices, is highlighted. A maximum value of +2.65 V is reached at T=100 K for a carrier generation rate G0 5.4x10^13 s^−1. At a fixed electron beam power, the effects of an external applied field on the emitter efficiency are considered. The SQW emission is promoted in the forward-current regime, while in the reverse-current regime (−1<=V<2.65 at T=100 K) it undergoes a quenching of at least one order of magnitude and a blueshift (60 meV at T=100 K) due to a partial compensation between the junction field and the internal piezoelectric field (minimum residual field of about 1.9 MV/cm at T=100 K). The observed blueshift is in a fairly good agreement with the voltage dependence predicted by calculating the energy band profiles and SQW confined states with a self-consistent Schrödinger–Poisson solver
2008
Field dependence of the carrier injection mechanisms in InGaN Quantum wells: Its effect on the luminescence properties of blue light emitting diodes / F., Rossi; G., Salviati; Pavesi, Maura; Manfredi, Manfredo; M., Meneghini; E., Zanoni; U., Zehnder. - In: JOURNAL OF APPLIED PHYSICS. - ISSN 0021-8979. - 103:9(2008), p. 93504. [10.1063/1.2178856]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11381/1798935
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