Piezoelectric field in InGaN-based quantum wells grown on c-plane sapphire substrates measured by electroreflectance spectroscopy: from near-ultraviolet to green spectra

Abstract

The internal electric field caused by the strain-induced piezoelectric polarization in InGaN-based single-or multiple-quantum-well light-emitting diodes (LEDs) is measured by using electroreflectance spectroscopy. The piezoelectric fields (F-PZ's) in InGaN LEDs from near-ultraviolet to green spectra (In-compositions of similar to 3% to similar to 30%) are measured to understand the effect of In-composition on F-PZ. A second-order polynomial as a function of In-composition is proposed from these F-PZ values as a guideline for future research. The experimental trend has a good agreement with the theoretical prediction for low (<15%) In-compositions. However, the trend diverges from the theoretical prediction at high In-compositions due to defect incorporation into the lattice. The observed effects of epitaxial structures and point defects on F-PZ are systematically explained. (c) 2020 The Japan Society of Applied Physics