Abstract
We report the results of a combined phenomenological analysis of the data from positron-annihilation-lifetime spectroscopy (PALS) and the relaxation data from broadband dielectric spectroscopy (BDS) on diethyl phthalate (DEP). The ortho-positronium (o-Ps) lifetime, tau3, as a function of temperature over a temperature range from 67 K up to 300 K is compared with the spectral features and the relaxation parameters of the BDS spectra decomposed into the primary alpha and the secondary beta processes in the temperature range from 140 K up to 380 K by using the Williams-Watts scheme. Phenomenological model-free analysis of the tau3-T plot provides the three characteristic PALS temperatures, where the two most pronounced ones at TgPALS=185 K and Tb2=245 K=1.32TgPALS are related to the glass-liquid transition and the onset of a quasiplateau region, respectively. In the case of a weaker bend effect at Tb1=210 K=1.14TgPALS, a number of new coincidences with changes in the dielectric beta process have been found. They concern the changes in width parameter of the distribution function for the beta relaxation time and the activation energy of the betaeff process, a crossover from the Arrhenius to the non-Arrhenius type of temperature dependence as well as with the onset of a short-time tail of the beta relaxation time distribution and finally, with changes in the relaxation strength of the alpha and betaeff processes. All these findings indicate a close connection of the o -Ps annihilation parameters and relaxation characteristics of BDS response for the DEP matrix.
Highlights
Structure-property relationships in condensed matter form continuing long-term topics of chemistry, physics, biology, and materials science
We report the results of a combined phenomenological analysis of the data from positron-annihilationlifetime spectroscopyPALSand the relaxation data from broadband dielectric spectroscopyBDSon diethyl phthalateDEP
The ortho-positroniumo-Pslifetime, 3, as a function of temperature over a temperature range from 67 K up to 300 K is compared with the spectral features and the relaxation parameters of the BDS spectra decomposed into the primary ␣ and the secondary  processes in the temperature range from 140 K up to 380 K by using the Williams-Watts scheme
Summary
Structure-property relationships in condensed matter form continuing long-term topics of chemistry, physics, biology, and materials science. It is generally accepted that the thermodynamic, dynamic, and transport properties of amorphous or partially crystalline materials are closely related to the structural and dynamical disorder of the matrix. In this respect, the free volume concept received a large extension because of its conceptual simplicity and physical plausibility in interpretation of the above-mentioned behavior5,6͔. Semiempirical models are used to characterize the PALS data in terms of free volume hole characteristics such as mean free volume hole size10͔ and free volume hole fraction11,12͔ These free volume quantities are used in the correlation of various dynamics and transport phenomena11–15͔
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