Isometric classification of norms in rearrangement-invariant function spaces

Beata Randrianantoanina

Commentationes Mathematicae Universitatis Carolinae (1997)

  • Volume: 38, Issue: 1, page 73-90
  • ISSN: 0010-2628

Abstract

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Suppose that a real nonatomic function space on [ 0 , 1 ] is equipped with two rearrangement-invariant norms · and | | | · | | | . We study the question whether or not the fact that ( X , · ) is isometric to ( X , | | | · | | | ) implies that f = | | | f | | | for all f in X . We show that in strictly monotone Orlicz and Lorentz spaces this is equivalent to asking whether or not the norms are defined by equal Orlicz functions, respĿorentz weights. We show that the above implication holds true in most rearrangement-invariant spaces, but we also identify a class of Orlicz spaces where it fails. We provide a complete description of Orlicz functions ϕ ψ with the property that L ϕ and L ψ are isometric.

How to cite

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Randrianantoanina, Beata. "Isometric classification of norms in rearrangement-invariant function spaces." Commentationes Mathematicae Universitatis Carolinae 38.1 (1997): 73-90. <http://eudml.org/doc/248048>.

@article{Randrianantoanina1997,
abstract = {Suppose that a real nonatomic function space on $[0,1]$ is equipped with two rearrangement-invariant norms $\Vert \cdot \Vert $ and $|\hspace\{-0.5pt\}|\hspace\{-0.5pt\}|\cdot |\hspace\{-0.5pt\}|\hspace\{-0.5pt\}|$. We study the question whether or not the fact that $(X,\Vert \cdot \Vert )$ is isometric to $(X,|\hspace\{-0.5pt\}|\hspace\{-0.5pt\}|\cdot |\hspace\{-0.5pt\}|\hspace\{-0.5pt\}|)$ implies that $\Vert f\Vert = |\hspace\{-0.5pt\}|\hspace\{-0.5pt\}|f|\hspace\{-0.5pt\}|\hspace\{-0.5pt\}|$ for all $f$ in $X$. We show that in strictly monotone Orlicz and Lorentz spaces this is equivalent to asking whether or not the norms are defined by equal Orlicz functions, respĿorentz weights. We show that the above implication holds true in most rearrangement-invariant spaces, but we also identify a class of Orlicz spaces where it fails. We provide a complete description of Orlicz functions $\varphi \ne \psi $ with the property that $L_\varphi $ and $L_\psi $ are isometric.},
author = {Randrianantoanina, Beata},
journal = {Commentationes Mathematicae Universitatis Carolinae},
keywords = {isometries; rearrangement-invariant function spaces; Orlicz spaces; Lorentz spaces; isometries; rearrangement-invariant function spaces; Orlicz spaces; Lorentz spaces},
language = {eng},
number = {1},
pages = {73-90},
publisher = {Charles University in Prague, Faculty of Mathematics and Physics},
title = {Isometric classification of norms in rearrangement-invariant function spaces},
url = {http://eudml.org/doc/248048},
volume = {38},
year = {1997},
}

TY - JOUR
AU - Randrianantoanina, Beata
TI - Isometric classification of norms in rearrangement-invariant function spaces
JO - Commentationes Mathematicae Universitatis Carolinae
PY - 1997
PB - Charles University in Prague, Faculty of Mathematics and Physics
VL - 38
IS - 1
SP - 73
EP - 90
AB - Suppose that a real nonatomic function space on $[0,1]$ is equipped with two rearrangement-invariant norms $\Vert \cdot \Vert $ and $|\hspace{-0.5pt}|\hspace{-0.5pt}|\cdot |\hspace{-0.5pt}|\hspace{-0.5pt}|$. We study the question whether or not the fact that $(X,\Vert \cdot \Vert )$ is isometric to $(X,|\hspace{-0.5pt}|\hspace{-0.5pt}|\cdot |\hspace{-0.5pt}|\hspace{-0.5pt}|)$ implies that $\Vert f\Vert = |\hspace{-0.5pt}|\hspace{-0.5pt}|f|\hspace{-0.5pt}|\hspace{-0.5pt}|$ for all $f$ in $X$. We show that in strictly monotone Orlicz and Lorentz spaces this is equivalent to asking whether or not the norms are defined by equal Orlicz functions, respĿorentz weights. We show that the above implication holds true in most rearrangement-invariant spaces, but we also identify a class of Orlicz spaces where it fails. We provide a complete description of Orlicz functions $\varphi \ne \psi $ with the property that $L_\varphi $ and $L_\psi $ are isometric.
LA - eng
KW - isometries; rearrangement-invariant function spaces; Orlicz spaces; Lorentz spaces; isometries; rearrangement-invariant function spaces; Orlicz spaces; Lorentz spaces
UR - http://eudml.org/doc/248048
ER -

References

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