A generalization of Grünbaum's inequality in RCD(0,N)-spaces

Victor Emmanuel Brunel; Shin ichi Ohta; Jordan Serres

doi:10.1016/j.jfa.2025.111210

A generalization of Grünbaum's inequality in RCD(0,N)-spaces

Victor Emmanuel Brunel
, Shin ichi Ohta
, Jordan Serres

Research output: Contribution to journal › Article › peer-review

Abstract

We generalize Grünbaum's classical inequality in convex geometry to curved spaces with nonnegative Ricci curvature, precisely, to (Formula presented) -spaces with N∈(1,∞) as well as weighted Riemannian manifolds of Ric_N≥0 for N∈(−∞,−1)∪{∞}[jls-end-space/]. Our formulation makes use of the isometric splitting theorem; given a convex set Ω and the Busemann function associated with any straight line, the volume of the intersection of Ω and any sublevel set of the Busemann function that contains a barycenter of Ω is bounded from below in terms of N. We also extend this inequality beyond uniform distributions on convex sets. Moreover, we establish some rigidity results by using the localization method, and the stability problem is also studied.

Original language	English
Article number	111210
Journal	Journal of Functional Analysis
Volume	290
Issue number	1
DOIs	https://doi.org/10.1016/j.jfa.2025.111210
Publication status	Published - 1 Jan 2026

Keywords

Convex set
Grünbaum's inequality
Ricci curvature
Splitting theorem

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10.1016/j.jfa.2025.111210

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title = "A generalization of Gr{\"u}nbaum's inequality in RCD(0,N)-spaces",

abstract = "We generalize Gr{\"u}nbaum's classical inequality in convex geometry to curved spaces with nonnegative Ricci curvature, precisely, to (Formula presented) -spaces with N∈(1,∞) as well as weighted Riemannian manifolds of RicN≥0 for N∈(−∞,−1)∪\{∞\}[jls-end-space/]. Our formulation makes use of the isometric splitting theorem; given a convex set Ω and the Busemann function associated with any straight line, the volume of the intersection of Ω and any sublevel set of the Busemann function that contains a barycenter of Ω is bounded from below in terms of N. We also extend this inequality beyond uniform distributions on convex sets. Moreover, we establish some rigidity results by using the localization method, and the stability problem is also studied.",

keywords = "Convex set, Gr{\"u}nbaum's inequality, Ricci curvature, Splitting theorem",

author = "Brunel, \{Victor Emmanuel\} and Ohta, \{Shin ichi\} and Jordan Serres",

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doi = "10.1016/j.jfa.2025.111210",

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T1 - A generalization of Grünbaum's inequality in RCD(0,N)-spaces

AU - Brunel, Victor Emmanuel

AU - Ohta, Shin ichi

AU - Serres, Jordan

PY - 2026/1/1

Y1 - 2026/1/1

N2 - We generalize Grünbaum's classical inequality in convex geometry to curved spaces with nonnegative Ricci curvature, precisely, to (Formula presented) -spaces with N∈(1,∞) as well as weighted Riemannian manifolds of RicN≥0 for N∈(−∞,−1)∪{∞}[jls-end-space/]. Our formulation makes use of the isometric splitting theorem; given a convex set Ω and the Busemann function associated with any straight line, the volume of the intersection of Ω and any sublevel set of the Busemann function that contains a barycenter of Ω is bounded from below in terms of N. We also extend this inequality beyond uniform distributions on convex sets. Moreover, we establish some rigidity results by using the localization method, and the stability problem is also studied.

AB - We generalize Grünbaum's classical inequality in convex geometry to curved spaces with nonnegative Ricci curvature, precisely, to (Formula presented) -spaces with N∈(1,∞) as well as weighted Riemannian manifolds of RicN≥0 for N∈(−∞,−1)∪{∞}[jls-end-space/]. Our formulation makes use of the isometric splitting theorem; given a convex set Ω and the Busemann function associated with any straight line, the volume of the intersection of Ω and any sublevel set of the Busemann function that contains a barycenter of Ω is bounded from below in terms of N. We also extend this inequality beyond uniform distributions on convex sets. Moreover, we establish some rigidity results by using the localization method, and the stability problem is also studied.

KW - Convex set

KW - Grünbaum's inequality

KW - Ricci curvature

KW - Splitting theorem

UR - https://www.scopus.com/pages/publications/105017976917

U2 - 10.1016/j.jfa.2025.111210

DO - 10.1016/j.jfa.2025.111210

M3 - Article

AN - SCOPUS:105017976917

SN - 0022-1236

VL - 290

JO - Journal of Functional Analysis

JF - Journal of Functional Analysis

IS - 1

M1 - 111210

ER -

A generalization of Grünbaum's inequality in RCD(0,N)-spaces

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Keywords

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