Global space correlations of polarization, charge density, and electric field in electrolytes under the fixed-potential condition

Abstract

We examine the thermal fluctuations of the polarization p, the charge density ρ, and the electric field E in dilute electrolytes inserted between pararell metallic electrodes, where we fix the applied potential difference Φa between the two electrodes. If the film thickness H is shorter than the Debye screening length κ-1, the space correlation of the polarization pz and the electric field Ez along the surface normal (in the z direction) acuire global components inversely proportional to the film volume V, which vary slowly along the z axis and are homogeneous in the xy plane. The areal charge density on each electrode surface also has a component homogeneous on the surface, which produces the global electric fluctuations. On the other hand, if H much exceeds κ-1, the global correlations of pz and ρ become small in the bulk region outside the electric double layers, but that of Ez remains almost unchanged by ions in the whole cell at fixed Φa. The dielectric constant ε eff depends on H and κ and is expressed in terms of the fluctuation variances of pz and ρ and that of the noblocal surface charge density at fixed Φa.