Temperature dependence of the bandgap of Eu doped ZnCdO/ZnO30 multilayer structures

Abstract

In situ Eu-doped ZnCdO/ZnO30 multilayer systems were grown on p-type Si-substrates and on quartz substrates by plasma-assisted molecular beam epitaxy. Various Eu concentrations in the samples were achieved by controlling temperature of the europium effusion cell. The properties of as-grown and annealed ZnCdO/ZnO30:Eu multilayers were investigated using secondary ion mass spectrometry (SIMS) and X-ray diffraction methods. SIMS measurements showed that annealing at 700C and 900C practically did not change the Eu concentration and the rare earth depth profiles are uniform. It was found that the band gap depends on the concentration of Eu and it was changed by rapid thermal annealing. Varshni and Bose-Einstein equations were used to describe the temperature dependence of the band gap of ZnCdO/ZnO30:Eu multilayer structures and Debye and Einstein temperatures were obtained.