Abstract
AbstractThe Raman spectrum of PuO2 was measured up to 13,000 cm−1 with three different laser excitation wavelengths spanning the resonance (405 nm), near‐resonance (457 nm), and preresonance (514 nm) energy range. Approximately 26 never‐before‐seen bands were observed between 3500 and 13,000 cm−1. Given the very high energy of the Raman shifts of these bands and the relative insensitivity of their spectral position to the interrogating laser wavelength, they are believed to arise from an electronic origin. These bands are present in both freshly calcined and radiolytically aged PuO2, although a broad luminescence is observed in the aged material, which obscures many of the high frequency features. In situ laser annealing of the material attenuated this luminescence and allowed for clear observation of these never‐before‐seen spectral features. Discovery of these high‐energy bands presents a new way of identifying PuO2 for nuclear nonproliferation and forensics purposes.
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