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$2$-Local Isometries on Spaces of Lipschitz Functions |
Published:2011-03-05
Printed: Dec 2011
Printed: Dec 2011
- A. Jiménez-Vargas,
- Moisés Villegas-Vallecillos,
Abstract
Let $(X,d)$ be a metric space, and let $\mathop{\textrm{Lip}}(X)$ denote the Banach
space of all scalar-valued bounded Lipschitz functions $f$ on $X$
endowed with one of the natural norms
$
\| f\| =\max \{\| f\| _\infty ,L(f)\}$ or $\|f\| =\|
f\| _\infty +L(f),
$
where $L(f)$ is the
Lipschitz constant of $f.$ It is said that the isometry
group of $\mathop{\textrm{Lip}}(X)$ is canonical if every
surjective linear isometry of
$\mathop{\textrm{Lip}}(X) $ is induced by a surjective isometry of $X$.
In this paper
we prove that if $X$ is bounded separable and the isometry group of
$\mathop{\textrm{Lip}}(X)$ is canonical, then every $2$-local isometry
of $\mathop{\textrm{Lip}}(X)$ is
a surjective linear isometry. Furthermore, we give a complete
description of all $2$-local isometries of $\mathop{\textrm{Lip}}(X)$ when $X$ is
bounded.
| Keywords: | isometry, local isometry, Lipschitz function |
| MSC Classifications: |
46B04 - Isometric theory of Banach spaces 46J10 - Banach algebras of continuous functions, function algebras [See also 46E25] 46E15 - Banach spaces of continuous, differentiable or analytic functions |