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Thin-shell bounds via parallel coupling

Published 21 Jul 2025 in math.PR, math.FA, and math.MG | (2507.15495v1)

Abstract: We prove that for any log-concave random vector $X$ in $\mathbb{R}n$ with mean zero and identity covariance, $$ \mathbb{E} (|X| - \sqrt{n})2 \leq C $$ where $C > 0$ is a universal constant. Thus, most of the mass of the random vector $X$ is concentrated in a thin spherical shell, whose width is only $C / \sqrt{n}$ times its radius. This confirms the thin-shell conjecture in high dimensional convex geometry. Our method relies on the construction of a certain coupling between log-affine perturbations of the law of $X$ related to Eldan's stochastic localization and to the theory of non-linear filtering. A crucial ingredient is a recent breakthrough technique by Guan that was previously used in our proof of Bourgain's slicing conjecture, which is known to be implied by the thin-shell conjecture.

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