Abstract:
Phospho-Tellurite glass was prepared earth to study the network former mixing
effect in the prepared glass. The glass was prepared by melt quench technique in an
electrical furnace at a temperature of 1100 °C. Glass were made in palettes of 2mm
in size. The prepared glass was then characterized by using Raman, FTIR and UV VIS (Reflectance) Spectroscopy. Raman Spectra revealed that phospho-tellurite are
suitable for Raman broadband Amplifiers. FTIR revealed the functional groups of
glass and verified the presence of non-bridging oxygen atoms. Whereas UV-VIS
(Reflectance) Spectra was used to calculate the band gap of prepared glass sample.
When UV-Vis spectrum will be examined via various wavelength it will show the
absorbance of one or more sample component. The crystalline phase available in
material will be recognized by XRD technique and it also discloses the chemical
structure. Absorption data will assist the calculation of band gap. To compute the
spectroscopic and electronic properties we also aspire to achieve the computational
simulation that will yield further awareness.