Attenuation of the Electric Potential and Field in Disordered Systems

Details Attenuation of the Electric Potential and Field in Disordered Systems Attenuation of the Electric Potential and Field in Disordered Systems

2005-01-04

arxiv.org/abs/cond-mat/0501048v1

Physics

Condensed Matter

Statistical Mechanics

Scientific paper

10.1007/s10955-005-3025-1

We study the electric potential and field produced by disordered distributions of charge to see why clumps of charge do not produce large potentials or fields. The question is answered by evaluating the probability distribution of the electric potential and field in a totally disordered system that is overall electroneutral. An infinite system of point charges is called totally disordered if the locations of the points and the values of the charges are random. It is called electroneutral if the mean charge is zero. In one dimension, we show that the electric field is always small, of the order of the field of a single charge, and the spatial variations in potential are what can be produced by a single charge. In two and three dimensions, the electric field in similarly disordered electroneutral systems is usually small, with small variations. Interestingly, in two and three dimensional systems, the electric potential is usually very large, even though the electric field is not: large amounts of energy are needed to put together a typical disordered configuration of charges in two and three dimensions, but not in one dimension. If the system is locally electroneutral--as well as globally electroneutral--the potential is usually small in all dimensions. The properties considered here arise from the superposition of electric fields of quasi-static distributions of charge, as in nonmetallic solids or ionic solutions. These properties are found in distributions of charge far from equilibrium.

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