Low frequency dynamics of glasses and crystals of similar compositionстатьяИсследовательская статья
Статья опубликована в высокорейтинговом журнале
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Дата последнего поиска статьи во внешних источниках: 16 ноября 2017 г.
Аннотация:Wide range (10-1500 cm-1) dielectric and Raman spectra of crystals and glasses of similar compositions were analysed with the use of both literature (α-quartz, cristobalite, LaBGeO5, Pb 5Ge3O11, As2Se3, etc.) and original (Li2Ge7O15, LiBaPO4) data. For all structural types (island, chain, layer or frame like), the boson peak (BP) in the glass spectrum (GS) corresponds to one or several bands in the low frequency (LF) spectrum of the corresponding crystal. In this sense, the LF range (<200 cm-1) is not a specific feature of GS as compared to higher frequency range of stretching and bending modes, where the crystal spectral bands are widened due to disordering and/or vitrification up to their full conversion into a diffuse GS. Therefore the origin of LF bands in GS can be identified taking into account the nature of corresponding bonds in the crystal spectrum by analogy with well known procedure of interpretation of stretching and bending vibrations in GS. The approach proposed is exemplified by different systems. Lead germanate glasses reveal several highly overlapping LF peaks, which originate from optical vibrations of lead atoms by analogy with Pb 5Ge3O11 crystal spectrum. The Li 2Ge7O15 glass and crystal LFpeaks correspond to vibrations of oxygen in layer fragments of the structure. Cristobalite-like structure of silica glass is proposed on the assumption of coincidence of peak frequencies in their Raman spectra at ∼50 cm-1, whereas α-quartz has no vibrational modes below 100 cm-1. Thus, the approach proposed allows one to refine and concretise the universal nature of the BP, referring to the short and medium range structure and the vibrational properties of the corresponding crystal.