Yossi Lonke
Published 2020-10-16Version 1
The main result is that a finite dimensional normed space embeds isometrically in $\ell_p$ if and only if it has a discrete Levy $p$-representation. This provides an alternative answer to a question raised by Pietch, and as a corollary, a simple proof of the fact that unless $p$ is an even integer, the two-dimensional Hilbert space $\ell_2^2$ is not isometric to a subspace of $\ell_p$. The situation for $\ell_q^2$ with $q\neq 2$ turns out to be much more restrictive. The main result combined with a result of Dor provides a proof of the fact that if $q\neq 2$ then $\ell_q^2$ is not isometric to a subspace of $\ell_p$ unless $q=p$. Further applications concerning restrictions on the degree of smoothness of finite dimensional subspaces of $\ell_p$ are included as well.
Comments: This is a pre-print of an article published in "Positivity" (2020). The final authenticated version is available online at: https://doi.org/10.1007/s11117-020-00758-6
Remarks on Banach spaces determined by their finite dimensional subspaces
Finite dimensional subspaces of noncommutative $L_p$ spaces
Images of nowhere differentiable Lipschitz maps of $[0,1]$ into $L_1[0,1]$
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