Fourth Moment of the Charge Density Induced Around A Guest Charge in Two-Dimensional Jellium

Abstract

The model under consideration is the classical two-dimensional one-component plasma (jellium) of pointlike particles with charge e, interacting pairwisely via the logarithmic Coulomb potential and immersed in a uniform neutralizing background charge density. The system is in thermal equilibrium at the inverse temperature β, its thermodynamics depends only on the coupling constant =β e2. We put into an infinite (homogeneous and translationally invariant) plasma a guest particle of charge Ze with Z>-2/ in order to prevent from the collapse of the jellium charges onto it. The guest particle induces a screening cloud (the excess charge density) in the plasma. The zeroth and second moments of this screening cloud were derived previously for any fluid value of . In this paper, we propose a formula for the fourth moment of the screening cloud. The derivation is based on the assumption that the fourth moment is, similarly as the second moment, analytic in Z around Z=0. An exact treatment of the limit Z∞ shows that it is a finite (cube) polynomial in Z. The -dependence of the polynomial coefficients is determined uniquely by considering the limits Z 0 and Z∞, and the compressibility sum rule for Z=1. The formula for the fourth moment of screening cloud is checked in the leading and first correction orders of the Debye-H\"uckel limit 0 and at the exactly solvable free-fermion point =2. Sufficient conditions for sign oscillations of the induced charge density which follow from the second-moment and fourth-moment sum rules are discussed.