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Hauptverfasser: Villamizar, Michael Alexánder Rincón, Oikhberg, Timur
Format: Preprint
Veröffentlicht: 2025
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Online-Zugang:https://arxiv.org/abs/2505.16775
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author Villamizar, Michael Alexánder Rincón
Oikhberg, Timur
author_facet Villamizar, Michael Alexánder Rincón
Oikhberg, Timur
contents For a Banach lattice $X$, its lattice Schäffer constant is defined by: \begin{gather*} λ^+(X)=\inf\{\max\{\|x+y\|,\|x-y\|\}\,\colon\,\|x\|=\|y\|=1,x,y\geq{\bf0}\}. \end{gather*} In this paper, we investigate this constant, as well as the companion parameter \begin{gather*} β(X)=\inf\{\|x\vee y\|\,\colon\,\mbox{$\|x\|=\|y\|=1$, $x,y\geq{\bf0}$ and $x\wedge y={\bf0}$}\}. \end{gather*} Our main results fall into two groups. (1) We link the behavior of the parameters $λ^+$ and $β$ to the global properties of the lattice $X$. For instance, we prove that (i) if $λ^+(X)>1$, then the Banach lattice $X$ is a KB-space, and moreover, it satisfies a lower $q$-estimate for some $q\in(1,\infty)$; (ii) $λ^+(X)=1$ if and only if $X$ contains lattice-almost isometric copies of $\ell_\infty^2$; and (iii) that $λ^+(X)=2$ if and only if $X$ is an abstract $L$-space. (2) We establish inequalities relating $λ^+(X)$ to the characteristics of monotonicity, $\varepsilon_{0,m}(X)$ and $\tilde\varepsilon_{0,m}(X)$. Along the way, we compute $λ^+(X)$ and $β(X)$ for various Banach lattices $X$.
format Preprint
id arxiv_https___arxiv_org_abs_2505_16775
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The lattice Schäffer constant
Villamizar, Michael Alexánder Rincón
Oikhberg, Timur
Functional Analysis
For a Banach lattice $X$, its lattice Schäffer constant is defined by: \begin{gather*} λ^+(X)=\inf\{\max\{\|x+y\|,\|x-y\|\}\,\colon\,\|x\|=\|y\|=1,x,y\geq{\bf0}\}. \end{gather*} In this paper, we investigate this constant, as well as the companion parameter \begin{gather*} β(X)=\inf\{\|x\vee y\|\,\colon\,\mbox{$\|x\|=\|y\|=1$, $x,y\geq{\bf0}$ and $x\wedge y={\bf0}$}\}. \end{gather*} Our main results fall into two groups. (1) We link the behavior of the parameters $λ^+$ and $β$ to the global properties of the lattice $X$. For instance, we prove that (i) if $λ^+(X)>1$, then the Banach lattice $X$ is a KB-space, and moreover, it satisfies a lower $q$-estimate for some $q\in(1,\infty)$; (ii) $λ^+(X)=1$ if and only if $X$ contains lattice-almost isometric copies of $\ell_\infty^2$; and (iii) that $λ^+(X)=2$ if and only if $X$ is an abstract $L$-space. (2) We establish inequalities relating $λ^+(X)$ to the characteristics of monotonicity, $\varepsilon_{0,m}(X)$ and $\tilde\varepsilon_{0,m}(X)$. Along the way, we compute $λ^+(X)$ and $β(X)$ for various Banach lattices $X$.
title The lattice Schäffer constant
topic Functional Analysis
url https://arxiv.org/abs/2505.16775