TY - JOUR AU - O.V. Melnichuk AU - N.O. Korsunska AU - I.V. Markevich AU - V.V. Boyko AU - Yu.O. Polishchuk AU - Z.F. Tsybrii AU - L.Yu. Melnichuk AU - Ye.F. Venger AU - V.P. Kladko AU - L.Yu. Khomenkova TI - Peculiarities of specular infrared reflection spectra of ZnO-based ceramics T2 - Semiconductor Physics, Quantum Electronics & Optoelectronics VL - 24 IS - 4 SP - 390 EP - 398 PY - 2021 DO - 10.15407/spqeo24.04.390 UR - https://doi.org/10.15407/spqeo24.04.390 AB - Undoped and Mn-doped ZnO ceramics were theoretically and experimentally investigated using specular infrared reflection method. It was shown that infrared reflection spectra can be modeled using the parameters explored for ZnO single crystals. For ceramic samples, it was shown that ZnO grains with orientation of the C-axis along the normal to the electric field ( ) give the main contribution to IR reflection spectra. It has been ascertained that the surface roughness is manifested in these spectra mainly within the range 450…550 cm–1 giving negligible effect for the frequencies above longitudinal phonon frequency. This allowed the electrophysical parameters of ZnO crystallites to be evaluated. In the case of undoped ceramics, the obtained results were found to be consistent with the values of direct current measurements. This finding supports the utility of infrared spectroscopy for determination of the electrophysical parameters of polycrystalline ceramic materials. For Mn-doped ceramic samples, the conductivity value measured using the direct current method was found to be essentially lower than those determined from simulation of infrared reflection spectra. This phenomenon was explained by barrier formation at the grain boundaries in Mn-doped ZnO ceramics. KW - ZnO KW - ceramics KW - infrared spectroscopy KW - doping KW - conductivity. ER -