In this study, micro-Raman spectroscopy technique was implemented to characterize an unirradiated homogeneous Gigondas (U 0.76 Pu 0.24 )O 2+x sample, which had been stored for 30 years at room temperature under air. The impacts of Pu content, deviation from stoichiometry, self-radiation damage and formation of secondary phases were assessed by comparing the Raman spectra of the aged Gigondas with an annealed sample [(U 0.76 Pu 0.24 )O 2 ]. The Pu content of the sample was measured by electron probe microanalysis technique, while the stoichiometry of the annealed Gigondas sample was determined by the results of electron probe microanalysis technique and X-ray diffraction. Two methods were proposed to explain the Raman spectrum of the aged Gigondas sample. They considered the presence of MO 2+x phase and the mixture of MO 2+x and M 4 O 9 (M: U and Pu) phases respectively. Formation of the secondary phases, which were detected on the surface of the aged Gigondas sample, could be mostly due to alpha radiolysis. It was suggested that self-radiation damage up to about 0.6 dpa leads to a shift of MO 2+x T 2g band by about 1 to 2 cm À1 towards lower wavenumbers.