Nature of resonant Raman scattering in ZnCoO films under sub-band excitation

Abstract

Using the methods of scanning electron (SEM) and atom force microscopy (AFM) as well as photoluminescence (PL) and Raman micro-spectroscopy, we investigated Zn1-xCoxO films (x=5 and 15\%) grown by molecular beam epitaxy on sapphire substrates. It is found that the films have a nanocrystalline structure with the grain size decreased from 150 down to 28 nm at changing the Co concentration from 5 to 15\%. High-resolution SEM images of Zn0.85Co0.15O film have been interpreted as inhomogeneous lateral distribution of Co atoms. Two broad emission bands observed in spectra of band-to-band PL are ascribed to emission from Zn1-xCoxO nano-regions enriched and depleted with Co. In low-temperature PL spectra under sub-band excitation of Zn1-xCoxO films, there observed are intra-center optical transitions due to Co2+ center: 2E(G), 2A1(G), 2T1(G), 4T1(P), 2T2(G) 4A2(F). Offered is a new approach to interpretation of resonant enhancement observed in multi-phonon scattering by LO phonons in Zn1-xCoxO under sub-bandgap excitation combined with the extrinsic Fr\"ohlich interaction mediated via a localized exciton bound to the isoelectronic impurity in which the electron is strongly localized at the magnetic Co2+ ion. This conclusion is confirmed by the dependence of Raman spectra on the quantum energy of exciting radiation. It assumes formation of intermediated sub-band electron excited states of isoelectron Co dopant, they are also referred to as charge transfer processes.