Some more twisted Hilbert spaces

arXiv: Functional Analysis Pub Date : 2020-12-11 DOI:10.5186/aasfm.2021.4653
Daniel Morales, J. Su'arez
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引用次数: 4

Abstract

We provide three new examples of twisted Hilbert spaces by considering properties that are "close" to Hilbert. We denote them $Z(\mathcal J)$, $Z(\mathcal S^2)$ and $Z(\mathcal T_s^2)$. The first space is asymptotically Hilbertian but not weak Hilbert. On the opposite side, $Z(\mathcal S^2)$ and $Z(\mathcal T_s^2)$ are not asymptotically Hilbertian. Moreover, the space $Z(\mathcal T_s^2)$ is a HAPpy space and the technique to prove it gives a "twisted" version of a theorem of Johnson and Szankowski (Ann. of Math. 176:1987--2001, 2012). This is, we can construct a nontrivial twisted Hilbert space such that the isomorphism constant from its $n$-dimensional subspaces to $\ell_2^n$ grows to infinity as slowly as we wish when $n\to \infty$.
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更多扭曲的希尔伯特空间
通过考虑与Hilbert“接近”的性质,我们提供了三个扭曲Hilbert空间的新例子。分别表示为$Z(\mathcal J)$, $Z(\mathcal S^2)$和$Z(\mathcal T_s^2)$。第一个空间是渐近希尔伯特空间,但不是弱希尔伯特空间。另一方面,$Z(\mathcal S^2)$和$Z(\mathcal T_s^2)$不是渐近的希尔伯特式。此外,空间$Z(\mathcal T_s^2)$是一个HAPpy空间,证明它的技术给出了Johnson和Szankowski定理的“扭曲”版本。数学学报。176:1987—2001,2012)。这就是说,我们可以构造一个非平凡的扭曲希尔伯特空间,使得从它的$n$维子空间到$\ell_2^n$的同构常数随着我们希望的速度增长到无穷大,当$n\to \infty$。
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arXiv: Functional Analysis
arXiv: Functional Analysis
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