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A Dimension-Free Hermite-Hadamard Inequality via Gradient Estimates for the Torsion Function
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A Dimension-Free Hermite-Hadamard Inequality via Gradient Estimates for the Torsion Function
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Let $\Omega \subset \mathbb{R}^n$ be a convex domain and let $f:\Omega \rightarrow \mathbb{R}$ be a subharmonic function, $\Delta f \geq 0$, which satisfies $f \geq 0$ on the boundary $\partial \Omega$. Then $$ \int_{\Omega}{f ~dx} \leq |\Omega|^{\frac{1}{n}} \int_{\partial \Omega}{f ~d\sigma}.$$ Our proof is based on a new gradient estimate for the torsion function, $\Delta u = -1$ with Dirichlet boundary conditions, which is of independent interest.
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Improved Bounds for Hermite-Hadamard Inequalities in Higher Dimensions
For positive subharmonic f on convex Omega in R^n the volume average is at most c_n times the surface average with n-1 <= c_n <= 2 n^{3/2}, plus the sharp geometric inequality |partial Omega1|/|Omega1| * |Omega2|/|par...
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