Wedi'i Gadw mewn:
| Prif Awduron: | , |
|---|---|
| Fformat: | Preprint |
| Cyhoeddwyd: |
2026
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| Pynciau: | |
| Mynediad Ar-lein: | https://arxiv.org/abs/2603.09710 |
| Tagiau: |
Ychwanegu Tag
Dim Tagiau, Byddwch y cyntaf i dagio'r cofnod hwn!
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Tabl Cynhwysion:
- In a companion paper (Studia Math., 2023), we proved for every $λ\in(1,2]$ the existence of a $(λ^+)$-injective renorming of $\ell_\infty$ that is not $λ$-injective, thereby establishing a~forgotten theorem of Pełczyński in that range. The complementary range $λ\in(2,\infty)$ was left open. In the present paper, we resolve this remaining case: for every $λ>2$ we construct a Banach space that is $(λ^+)$-injective but not $λ$-injective, completing Pełczyński's theorem for all $λ>1$. The construction uses a single device: the `zero-sum' subspace $Σ_N(Y)\subset Z_\infty^N$, which multiplies the relative projection constant by $μ_N=2-2/N$ while preserving non-attainment. Iterating this operation reduces the problem to the range $(1,2]$ already covered by the companion paper. Since the ambient spaces arising in the iteration are finite $\ell_\infty$-sums of $\ell_\infty$, the resulting examples may be realised as subspaces of~$\ell_\infty$. We also prove that if two Banach spaces are each isometrically isomorphic to their own square and each is isometric to a $1$-complemented subspace of the other, then their Banach--Mazur distance is at most $9+6\sqrt{3}$. Consequently, we obtain the estimate $\operatorname{dist}(L_\infty[0,1],\ell_\infty)\le 9+6\sqrt{3}$, thereby improving a recent result of Korpalski and Plebanek.