Recombination in Polar InGaN/GaN LED Structures with Wide Quantum Wells

Abstract: The analysis of the photoluminescence of polar light emitting diode (LED) structures with a 25 nm In0.17Ga0.83N quantum well is reported. The observed emission most likely originates from a set of energetically close excited states (ES), while the ground state decays only extremely slowly on a μs‐to‐ms timescale, that is, long‐living charge accumulates there. However, this population can also be quantified spectroscopically by applying short reverse voltage pulses. The emission from ES is effective and nearly … Show more

“…1(b,c) are integrated spectrally, transients are obtained which show a clear single-exponential decay throughout the entire 5 to 300 K temperature range; see also our earlier results in Ref. 7 The time constant of the observed decay increases from 5 K to 300 K almost monotonically from 1...2 ns to about 7...9 ns, respectively. Such behavior is consistent with the assumption that this PL decay time is governed by radiative recombination.…”

Recombination kinetics in polar InGaN/GaN structures with wide quantum wells

“…1(b,c) are integrated spectrally, transients are obtained which show a clear single-exponential decay throughout the entire 5 to 300 K temperature range; see also our earlier results in Ref. 7 The time constant of the observed decay increases from 5 K to 300 K almost monotonically from 1...2 ns to about 7...9 ns, respectively. Such behavior is consistent with the assumption that this PL decay time is governed by radiative recombination.…”

Recombination kinetics in polar InGaN/GaN structures with wide quantum wells

Long-Lived Excitations in Wide (In,Ga)N/GaN Quantum Wells

Light emission at reverse voltage in a wide-well (In,Ga)N/GaN light-emitting diode