Photoluminescence polarization properties of single GaN nanowires containing Alx Ga1-x N/GaN quantum discs

The polarization anisotropy of single GaN nanowires containing Alx Ga1-x N/GaN multiquantum disc (MQDisc) structures is characterized by polarization-resolved microphotoluminescence (μPL). Single nanowires exhibit at T=4.2K two main luminescence contributions: one is peaked at E=3.45-3.48eV related to near-band-edge GaN bulk excitonic transitions and is polarized parallel to the nanowire axis (π polarization) at moderate excitation-power density; the other, lying at higher energy, is related to excitonic transitions confined in the MQDisc and is polarized perpendicularly to the nanowire axis (σ polarization). The results are interpreted in terms of the selection rules for excitonic transitions in wurtzite semiconductor crystals and of the polarization anisotropy arising from the elongated nanowire shape. Finally, the analysis of photoluminescence at T=300K shows that the thermal population of light-hole states in the MQDisc produces a blueshift of the PL peak when polarization is rotated from σ to π.