Use of BaO-aided structural change of BaO–ZnO–TeO2 glass to enhance the optical properties of its doped activators by optimizing their surrounding ionic field

Spectroscopic studies of BaO effect on the Yb 3+ -doped BaO–ZnO–TeO 2 glasses of varied BaO content reveal that the integrated emission of constant amount of Yb 3+ in these glasses increases with the increase in BaO. Excitation spectra exhibit a phonon progression of ~ 150 cm −1 , while FTIR spectra...

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Bibliographic Details
Published in:Applied physics. A, Materials science & processing Materials science & processing, 2020-06, Vol.126 (6), Article 403
Main Authors: Debnath, R., Bose, S.
Format: Article
Language:English
Subjects:
Applied physics
Barium oxides
Characterization and Evaluation of Materials
Charge density
Condensed Matter Physics
Excitation spectra
Glass
Machines
Manufacturing
Materials science
Nanotechnology
Optical and Electronic Materials
Optical materials
Optical properties
Optics
Phonons
Physics
Physics and Astronomy
Processes
Specific volume
Surfaces and Interfaces
Tellurium dioxide
Thin Films
Ytterbium
Zinc oxide
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Summary:Spectroscopic studies of BaO effect on the Yb 3+ -doped BaO–ZnO–TeO 2 glasses of varied BaO content reveal that the integrated emission of constant amount of Yb 3+ in these glasses increases with the increase in BaO. Excitation spectra exhibit a phonon progression of ~ 150 cm −1 , while FTIR spectra of the glasses show a phonon at ~ 700 cm −1 ; intensity of both increases with increase in BaO. The phonons are identified, respectively, as the rotational and stretching vibrations of loosely bound tellurite (TeO 3 − /Te 2 O 5 2− ) units of the host’s structure, concentration of which increases with the increase in BaO. Specific volume data, XRD, HRTEM investigations suggest that large Ba 2+ ions in these glasses attract the tellurite units toward its vicinity inducing a compaction. Ba 2+ -substituted Yb 3+ ions in the glass because of higher charge density attract the tellurite units even closer and experience greater ionic field exhibiting efficient luminescence. Glass is potential host for designing new generation efficient optical materials.
ISSN:0947-8396
1432-0630
DOI:10.1007/s00339-020-03590-7