Electric field dynamics in nitride structures containing quaternary alloy (Al, In, Ga)N

Abstract: Molecular beam epitaxy growth and basic physical properties of quaternary AlInGaN layers, sufficiently thick for construction of electron blocking layers (EBL), embedded in ternary InGaN layers are presented. Transmission electron microscopy (TEM) measurement revealed good crystallographic structure and compositional uniformity of the quaternary layers contained in other nitride layers, which are typical for construction of nitride based devices. The AlInGaN layer was epitaxially compatible to InGaN matrix, st… Show more

“…However, most of the TRPL analyses presented here were performed at low temperature of about 6 K. The low-temperature signal from GaN was at 3.47 eV, as expected. Its lifetime was about 0.1 ns, which is significantly faster than in GaN homoepitaxial material [36,37] or pure GaN nanowires [38]. It was observed that the signal from the CQWs was very strong up to 300 K.…”

Switching of exciton character in double InGaN/GaN quantum wells

“…However, most of the TRPL analyses presented here were performed at low temperature of about 6 K. The low-temperature signal from GaN was at 3.47 eV, as expected. Its lifetime was about 0.1 ns, which is significantly faster than in GaN homoepitaxial material [36,37] or pure GaN nanowires [38]. It was observed that the signal from the CQWs was very strong up to 300 K.…”

Switching of exciton character in double InGaN/GaN quantum wells

Carrier localization effect in the photoluminescence of In composition engineered InAlAs random alloy