Thermal Kinetics and Theoretical Third Order Nonlinear Optical Susceptibility of some As2O3·V2O5·FeO Glasses

A series of glasses having the composition x%As2O3·(80−x)%V2O5·20%FeO with (25 ≤ x ≤ 45) is prepared by the melt quenching technique. Complete amorphous nature of the glasses is confirmed from the XRD results. The density values are found to increase with increasing the concentration of the As2O3 in...

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Bibliographic Details
Published in:Physica status solidi. A, Applications and materials science Applications and materials science, 2018-09, Vol.215 (18), p.n/a
Main Authors: Ahmed, Ehab Moustafa, El‐Ghamaz, Naser Abdou, Edres, Aya Mohamed
Format: Article
Language:English
Subjects:
Bond strength
Bonding strength
Crystallization
crystallization kinetics
differential scanning calorimeter
Energy measurement
Fourier transforms
Glass
Ion density (concentration)
Mathematical analysis
Molar volume
Nonlinear optics
Optical basicity
Oxygen ions
Refractivity
theoretical optical basicity
third order nonlinear susceptibility
vanadium arsenate glasses
Vanadium pentoxide
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Summary:A series of glasses having the composition x%As2O3·(80−x)%V2O5·20%FeO with (25 ≤ x ≤ 45) is prepared by the melt quenching technique. Complete amorphous nature of the glasses is confirmed from the XRD results. The density values are found to increase with increasing the concentration of the As2O3 in the samples, while the molar volume and the oxygen ion density values decrease with increasing the ratios of the As2O3 in the samples. The calculated values of optical basicity decreases with increasing the %As2O3 in the glasses, and the refractive index of the studied glasses is found to be around 1.8. The calculated average single bond strength values suggest that the ionic character is dominant between the bonds formed in the glass structure. The investigated glasses are probably good candidates for nonlinear optical applications as confirmed from the electronic polarizability and 3rd order nonlinear susceptibility χ(3) calculations. Several types of bonds and groups formed within the glass matrix are investigated and confirmed from the FTIR spectroscopy measurement. Thermal characteristics and glass stability are investigated by the DSC measurement. Activation energy for glass transition and crystallization as well as many other kinetic characteristics are studied. Glasses of the composition x%As2O3.(80‐x)%V2O5.20%FeO are prepared. Amorphous nature and types of bonds and groups are investigated. Single bond strength, non linear optical susceptibility, and some other parameters are affected by the changes in the As2O3 amounts in the glasses. Different thermal parameters are obtained by the differential scanning calorimeter (DSC) measurement. JMA model is the adequate model for describing the crystallization kinetics.
ISSN:1862-6300
1862-6319
DOI:10.1002/pssa.201800299