On the numerical evaluation of the dielectric relaxation time distribution function from permittivity data

It has been shown that the parameters in the log-normal (LN) and generalized exponential (Gex) distributions can be evaluated if molecular weight ratiosH and H,, or their equivalents, are known for a linear, unimodal homopolymer. It is suggested that better checks of observed and calculated values o

## THE EVALUATION OF ROTATIONAL TRANSITION PROBAElLITlES FROM DISTRIEWTION FIJNCTIQNS A method is described for the evaluaiion of rolalional rransition probabilities from the nonequilibrium distributions posscssed by'the products of certain chemical reactions. Results obtained f'rom rite method ar

## Uncertainties in the kinetic energy are the primary sources of errors in the evaluation of the potential hindering internal rotation. These uncertainties may simply be those arising from arnbiguitics in the structure (e.g., tilted versus axially symmetric methyl group) or, more importantly, tho

In this article, a systematic numerical study is described of the effect of the polydispersity of suspensions of spherical particles on their dielectric behavior, in both the frequency and time domains, starting from the model proposed by DeLacey and White (J. Chem. Soc., Faraday Trans. 2 77, 2007 (

## Abstract Biological systems exhibit heterogeneity at many different levels, leading to the expectation of multiple relaxation time components for water protons in tissue samples. Traditional methods which fit the relaxation data to an a priori number of discrete components are open to observer b