几种VSrFeZnO玻璃的介电性能、极化率和摩尔折射率

IF 0.9 4区工程技术 Q4 ENGINEERING, CHEMICAL

Journal of Microwave Power and Electromagnetic Energy Pub Date : 2020-10-01 DOI:10.1080/08327823.2020.1838050

E. Ahmed, Bushra Al-Hasni

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引用次数: 9

摘要

从介电常数和电模量的角度研究了(70-x)%V2O5 -x %ZnO - 10%SrO - 20%FeO玻璃的介电性能。电介质数据采集频率为120、103、104和105 Hz，温度范围为300 ~ 523 K。用不同的理论模型来处理电模量。用Cole-Cole方程和Davidson-Cole方程与实验数据拟合较好。静态弛豫时间τ0值在7.6 ~ 22.7x10−9 sec之间变化，参数α和γ分别为(α = 0.056 ~ 0.065)和(γ = 0.94 ~ 0.95)。计算出的光学碱度值随着ZnO含量的增加而减小。摩尔折射率在2.6 ~ 3.2之间。计算的单键强度值表明，键的性质从共价形式转移到离子形式。得到的三阶非线性光学磁化率χ(3)结果和电子极化率计算表明，这些玻璃是非线性光学应用的良好候选人。

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Dielectric properties, polarizability and molar refractive index of some VSrFeZnO glasses

Abstract Dielectric properties of a set of glasses having the composition (70-x)%V2O5 - x%ZnO − 10%SrO − 20%FeO is studied in terms of their permittivity and electric modulus. The dielectric data are collected at the frequencies 120, 103, 104 and 105 Hz and in the temperature range 300 − 523 K. The electric moduli are treated with different theoretical models. Good fitting to the experimental data are obtained with Cole–Cole and Davidson–Cole equations. The static relaxation time τ0 values are found to vary between 7.6x10−9 sec and 22.7x10−9 sec, and the parameters α and γ are found to be (α = 0.056 − 0.065) and (γ = 0.94 − 0.95). The calculated optical basicity values are found to decrease with increasing the %ZnO. The molar refractive index is found to be between 2.6 and 3.2. The calculated single bond strength values suggest the transfer of bond nature from the covalent to the ionic form. The obtained third-order nonlinear optical susceptibility χ(3) results and electronic polarizability calculations suggests these glasses to be good nominees for nonlinear optical applications.

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来源期刊

Journal of Microwave Power and Electromagnetic Energy ENGINEERING, CHEMICAL-ENGINEERING, ELECTRICAL & ELECTRONIC

CiteScore

2.50

自引率

6.70%

发文量

期刊介绍： The Journal of the Microwave Power Energy (JMPEE) is a quarterly publication of the International Microwave Power Institute (IMPI), aimed to be one of the primary sources of the most reliable information in the arts and sciences of microwave and RF technology. JMPEE provides space to engineers and researchers for presenting papers about non-communication applications of microwave and RF, mostly industrial, scientific, medical and instrumentation. Topics include, but are not limited to: applications in materials science and nanotechnology, characterization of biological tissues, food industry applications, green chemistry, health and therapeutic applications, microwave chemistry, microwave processing of materials, soil remediation, and waste processing.