The relationship between the scaling parameter and relaxation time for non-exponential relaxation in disordered systems

Ya E. Ryabov; Yu Feldman

doi:10.1142/S0218348X03001835

The relationship between the scaling parameter and relaxation time for non-exponential relaxation in disordered systems

Ya E. Ryabov^*
, Yu Feldman

^*Corresponding author for this work

The Institute of Applied Physics

Research output: Contribution to journal › Article › peer-review

8 Scopus citations

Abstract

A memory function equation and scaling relationships were used for the physical interpretation of the Cole-Cole exponent. The correspondence between the relaxation time, the geometrical properties, the self-diffusion coefficient and the Cole-Cole exponent was established. Using this approach the dielectric relaxation spectra of the polymer-water mixtures and the glass transition process in the nylon 6,6 quenched, crystalline and micro-composite samples were analyzed.

Original language	English
Pages (from-to)	173-183
Number of pages	11
Journal	Fractals
Volume	11
Issue number	SUPPL.
DOIs	https://doi.org/10.1142/S0218348X03001835
State	Published - Feb 2003

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abstract = "A memory function equation and scaling relationships were used for the physical interpretation of the Cole-Cole exponent. The correspondence between the relaxation time, the geometrical properties, the self-diffusion coefficient and the Cole-Cole exponent was established. Using this approach the dielectric relaxation spectra of the polymer-water mixtures and the glass transition process in the nylon 6,6 quenched, crystalline and micro-composite samples were analyzed.",

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AB - A memory function equation and scaling relationships were used for the physical interpretation of the Cole-Cole exponent. The correspondence between the relaxation time, the geometrical properties, the self-diffusion coefficient and the Cole-Cole exponent was established. Using this approach the dielectric relaxation spectra of the polymer-water mixtures and the glass transition process in the nylon 6,6 quenched, crystalline and micro-composite samples were analyzed.

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The relationship between the scaling parameter and relaxation time for non-exponential relaxation in disordered systems

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