On potential and field fluctuations in classical charged systems |
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Authors: | J. L. Lebowitz Ph. A. Martin |
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Affiliation: | (1) Department of Mathematics and Physics, Rutgers University, 08903 New Brunswick, New Jersey;(2) Institut de Physique Théorique, EPFL-PHB-Ecublens, CH-1015 Lausanne, Switzerland |
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Abstract: | Using electrostatic identities the potential and microfield in a plasma, important for determining line shapes, are expressed as limits of local quantities. These are shown to be well defined for typical configurations of macroscopic, i.e., infinite systems (under some mild clustering assumptions). Their covariance contains a slowly decaying part (¦x¦–1, for the potential) whose coefficient is universal whenever the Stillinger-Lovett second moment condition holds. We show further that the contributions from distant regions (which are equal to suitable averages over local regions) have a Gaussian distribution.Supported in part by AFOSR Grant No. 82-0016.Supported in part by the Swiss National Foundation for Scientific Research. |
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Keywords: | Coulomb systems potential fluctuations microfield distribution kparticle correlations sum rules clustering |
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