The non-linear dielectric effect in xenon and in other non-polar liquids

The non-linear dielectric effect (NLDE). that is the increase in the dielectric constant divided by the square of the applied field, is measured for a number of non-polar molecular liquids and for iiquid xenon. The values of the NLDE are compared airh resufts in the literature and with values predic

The densely dependence of Ihe non-hnear dielectric effect m xenon IS measured Expenments were perCormed along an ~sothcrm \nth a reduced temperature T' = 1 01 m a reduced densrty range 0.1 IO 1.8. There IS a large drsagreement wrrh theory, wiuch m first order leads IO elecuostncnon Arguments are grv

This article presents applications of the non-linear dielectric effect (NDE) to studies of intra-and intermolecular equilibria in liquids. It briefly describes the physical background of the two main phenomena which determine the quantity of the observed effect. These are the orientational Langevin

Dielectric relaxation and the non-linear dielectric effect have been measured in dilute solutions of monobenzoylferrocene and 1,l '-acetylbenzoylferrocene, and only the non-linear dielectric effect in monoacetylferrocene. The dielectric relaxation was measured in the temperature and frequency ranges