Asymptotic statistics of the n-sided planar Poisson-Voronoi cell. I. Exact results

Abstract

We achieve a detailed understanding of the n-sided planar Poisson-Voronoi cell in the limit of large n. Let p\n be the probability for a cell to have n sides. We construct the asymptotic expansion of p\n up to terms that vanish as n∞. We obtain the statistics of the lengths of the perimeter segments and of the angles between adjoining segments: to leading order as n∞, and after appropriate scaling, these become independent random variables whose laws we determine; and to next order in 1/n they have nontrivial long range correlations whose expressions we provide. The n-sided cell tends towards a circle of radius (n/4πλ), where λ is the cell density; hence Lewis' law for the average area A\n of the n-sided cell behaves as A\n cn/λ with c=1/4. For n∞ the cell perimeter, expressed as a function R(φ) of the polar angle φ, satisfies d2 R/dφ2 = F(φ), where F is known Gaussian noise; we deduce from it the probability law for the perimeter's long wavelength deviations from circularity. Many other quantities related to the asymptotic cell shape become accessible to calculation.

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