| Abstract [eng] |
In doctoral dissertation, results of investigation on zinc oxide based semiconductor layers and heterostructures for application in optoelectronics by spectroscopy methods are presented. High quality zinc oxide layers and heterostructures were characterized optically. That is ZnO, ZnO:Ga and MgZnO epitaxial layers grown by molecular beam epitaxy technique, ZnO:N layers grown by magnetron sputtering method, CdZnO/ZnO quantum wells structures for light-emitting diodes grown on GaN layers by combined molecular beam epitaxy and metalorganic chemical vapor deposition techniques. In this work, new data on dynamics and interaction of photoexcited carriers in zinc oxide based structures were acquired. It was shown, that the contribution of impurities bound excitons in the inelastic interaction of free excitons influences the position of luminescence band of the interaction in spectrum. In MgZnO epitaxial layers, the localization of carriers in the field of two different localization centers is described. Due to the localization the radiative recombination efficiency increases significantly and it has importance for application in optoelectronic devices. Investigation of the CdZnO/ZnO quantum wells structures for green spectral range light-emitting diodes showed that low radiative recombination efficiency at room temperature is mainly due to weak carrier localization effect, which is responsible for high efficiency of conventional InGaN/GaN quantum wells structures. |
