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Raman studies and optical properties of some(PbO)x(Bi2O3)0.2(B2O3)0.8−x glasses
Authors: Kotková Kateřina | Tichá Helena | Tichý Ladislav
Year: 2008
Type of publication: článek v odborném periodiku
Name of source: Journal of Raman Spectroscopy
Publisher name: John Wiley & Sons Ltd.
Place: Chichester
Page from-to: 1219-1226
Titles:
Language Name Abstract Keywords
cze Raman studies and optical properties of some(PbO)x(Bi2O3)0.2(B2O3)0.8−x glasses Five (PbO)x(Bi2O3)0.2(B2O3)0.8-x glasses, where x = 0, 0.2, 0.3, 0.4 and 0.6, were prepared. The dilatometric glass transition temperature (Tg) was found in the region 470 .x = 0/ (0,5) Tg (C) (0,5) 347 (x = 0.6), and the density (r) varied within 4.57 .x = 0/  r (g/cm3)  8.31 (x = 0.6). Raman spectra indicated the conversion of BO3 to BO4 entities for low x values but for x (more) 0.3, namely, for x - 0.6, back-conversion occurred, most probably. From the measurements of the optical transmission on very thin bulk samples, the room temperature optical gap values (Eg)were determined to be in the range 4.03 .x = 0/ (0,5) Eg (eV) (0,5) 3.08 (x = 0.6). The temperature (T) dependence of the optical gap (Eg(T)) in the region 300  T(K)  600 was examined and approximated by a linear relationship of the form of Eg.T/ = Eg.0/− gT, where g x 10−4(eV/K) varied from 5.1 to 6.8. The non-linear refractive index (n2) was estimated from the optical gap values and it was found to correspond to the n2 values calculated from the experimental third-order non-linear optical susceptibility taken from the literature. Raman spectroscopy; borate glasses; optical properties
eng Raman studies and optical properties of some(PbO)x(Bi2O3)0.2(B2O3)0.8−x glasses Five (PbO)x(Bi2O3)0.2(B2O3)0.8-x glasses, where x = 0, 0.2, 0.3, 0.4 and 0.6, were prepared. The dilatometric glass transition temperature (Tg) was found in the region 470 .x = 0/ (0,5) Tg (C) (0,5) 347 (x = 0.6), and the density (r) varied within 4.57 .x = 0/  r (g/cm3)  8.31 (x = 0.6). Raman spectra indicated the conversion of BO3 to BO4 entities for low x values but for x (more) 0.3, namely, for x - 0.6, back-conversion occurred, most probably. From the measurements of the optical transmission on very thin bulk samples, the room temperature optical gap values (Eg)were determined to be in the range 4.03 .x = 0/ (0,5) Eg (eV) (0,5) 3.08 (x = 0.6). The temperature (T) dependence of the optical gap (Eg(T)) in the region 300  T(K)  600 was examined and approximated by a linear relationship of the form of Eg.T/ = Eg.0/− gT, where g x 10−4(eV/K) varied from 5.1 to 6.8. The non-linear refractive index (n2) was estimated from the optical gap values and it was found to correspond to the n2 values calculated from the experimental third-order non-linear optical susceptibility taken from the literature. Raman spectroscopy; borate glasses; optical properties