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Hinkis, Arie
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Proofs of the Cantor-Bernstein Theorem.
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Cantor–Bernstein Sextuples for Banach Spaces
Published online by Cambridge University Press: 20 November 2018
Abstract
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Let 
$X$ and 
$Y$ be Banach spaces isomorphic to complemented subspaces of each other with supplements 
$A$ and 
$B$. In 1996, W. T. Gowers solved the Schroeder–Bernstein (or Cantor–Bernstein) problem for Banach spaces by showing that $X$ is not necessarily isomorphic to $Y$. In this paper, we obtain a necessary and sufficient condition on the sextuples 
$\left( p,\,q,\,r,\,s,\,u,\,v \right)$ in 
$\mathbb{N}$ with 
$p\,+\,q\,\ge \,1$, 
$r+s\ge 1$ and 
$u,\,v\,\in \,{{\mathbb{N}}^{*}}$, to provide that $X$ is isomorphic to $Y$, whenever these spaces satisfy the following decomposition scheme
$${{A}^{u}}\,\sim \,{{X}^{p}}\,\oplus \,{{Y}^{q}},\,{{B}^{v}}\,\sim \,{{X}^{r}}\,\oplus \,{{Y}^{s}}.$$
Namely, 
$\Phi \,=\,\left( p\,-\,u \right)\left( s\,-\,v \right)-\left( q\,+\,u \right)\left( r\,+\,v \right)$ is different from zero and 
$\Phi $ divides 
$p\,+\,q$ and 
$r\,+\,s$. These sextuples are called Cantor–Bernstein sextuples for Banach spaces. The simplest case 
$\left( 1,0,0,1,1,1 \right)$ indicates the well-known Pełczyński's decomposition method in Banach space. On the other hand, by interchanging some Banach spaces in the above decomposition scheme, refinements of the Schroeder– Bernstein problem become evident.
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