Advances in Internet, Data & Web Technologies. B, D., R., Cretu, A., Yi, J., Avram, C., & Adina, A. Volume 17 , 2018. ![Advances in Internet, Data & Web Technologies [link]](https://bibbase.org/img/filetypes/link.svg "link")
Website abstract bibtex The relaxation dynamics of the conductive process present in PbNb 2O6 piezoelectric ceramics was investigated. A relaxation function in the time domain, Φ(t), was found from the frequency dependence of the dielectric modulus (imaginary component, M′′) by using a relaxation function in the frequency domain, F*(ω). The best relaxation function, F*(ω), was found to be a Cole-Cole distribution function, in which relaxation characteristic parameters, such as α and τCC, are involved. On the other hand, the relaxation function, Φ(t), obtained by the time domain method, was found to be a Kohlrausch-Williams-Watts (KWW) function type. The thermal evolution of the characteristics parameters of the KWW function (β and τ *) was analysed. The values of the activation energy (E a), obtained in the whole investigated temperature interval, suggest the existence of a relaxation mechanism (a conductive process), which may be interpreted by an ion hopping between neighbouring sites within the crystalline lattice. The results are corroborated with the formalism of the AC conductivity. © IOP Publishing Ltd.
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abstract = {The relaxation dynamics of the conductive process present in PbNb 2O6 piezoelectric ceramics was investigated. A relaxation function in the time domain, Φ(t), was found from the frequency dependence of the dielectric modulus (imaginary component, M′′) by using a relaxation function in the frequency domain, F*(ω). The best relaxation function, F*(ω), was found to be a Cole-Cole distribution function, in which relaxation characteristic parameters, such as α and τCC, are involved. On the other hand, the relaxation function, Φ(t), obtained by the time domain method, was found to be a Kohlrausch-Williams-Watts (KWW) function type. The thermal evolution of the characteristics parameters of the KWW function (β and τ *) was analysed. The values of the activation energy (E a), obtained in the whole investigated temperature interval, suggest the existence of a relaxation mechanism (a conductive process), which may be interpreted by an ion hopping between neighbouring sites within the crystalline lattice. The results are corroborated with the formalism of the AC conductivity. © IOP Publishing Ltd.},
bibtype = {book},
author = {B, Dan Radu and Cretu, Adrian and Yi, Jiazi and Avram, Camelia and Adina, A}
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