Raman spectroscopic investigations of the effect of the doping metal on the structure of binary tellurium-oxide glasses

Raman studies over the range 10 to 1000 cm(-1) have been performed on binary tellurium-oxide glasses (1 - x)TeO2-xMO (M = Pb, Zn or Mg) prepared using a conventional melt technique. The intensities and positions of Raman bands observed in the range above 250 cm(-1) were found to depend both on the compound oxide and on the amount of doping. indeed, the ratio of the intensity of the band around 680 cm(-1) (assigned to vibrations of TeO4 trigonal bipyramids) with respect to that of the component around 750 cm(-1) (related to stretching-vibrations in TeO3+1, TeO3 and MO groups) are affected in different ways for the glass-modifier MgO and for the intermediate glass-formers PbO and ZnO. Concurrently, an explicit dependence on the compound oxide and amount of doping was also observed on the maximum of the boson peak (BP) in the low-frequency region around 40 cm(-1). The structural correlation lengths in the glasses, calculated using the model described by Shuker and Gammon, were found to be about 0.50 nm for (1 - x)TeO2-xMgO glasses and around 0.65 nm for (1 - x)TeO2-xMO (M = Pb or Zn) glasses. All these results are interpreted in terms of the effect of the metal oxide on the changes induced in the structural arrangements of (1)(infinity)[TeO4-TeO3] chains. (C) 1997 Elsevier Science B.V.