arXiv:1311.2270 Abstract | arXiv Analytics

arXiv:1311.2270 [math.FA]Abstract References Reviews Resources

On linear operators with s-nuclear adjoints: $0< s \le 1$

Published 2013-11-10Version 1

If $ s\in (0,1]$ and $ T$ is a linear operator with $ s$-nuclear adjoint from a Banach space $ X$ to a Banach space $ Y$ and if one of the spaces $ X^*$ or $ Y^{***}$ has the approximation property of order $s,$ $AP_s,$ then the operator $ T$ is nuclear. The result is in a sense exact. For example, it is shown that for each $r\in (2/3, 1]$ there exist a Banach space $Z_0$ and a non-nuclear operator $ T: Z_0^{**}\to Z_0$ so that $Z_0^{**}$ has a Schauder basis, $ Z_0^{***}$ has the $AP_s$ for every $s\in (0,r)$ and $T^*$ is $r$-nuclear.

Comments: 11 pages, AMS TeX

Categories: math.FA

Keywords: linear operator, s-nuclear adjoints, banach space, schauder basis, approximation property

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arXiv:1311.2270 [math.FA]Abstract References Reviews Resources

On linear operators with s-nuclear adjoints: $0< s \le 1$

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On linear operators with s-nuclear adjoints: $0< s \le 1$

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