# New solution of a problem of Kolmogorov on width asymptotics in   holomorphic function spaces

**Authors:** Oscar F. Bandtlow, St\'ephanie Nivoche

arXiv: 1906.00918 · 2020-05-20

## TL;DR

This paper presents a new, direct proof of the asymptotic behavior of Kolmogorov widths for holomorphic function spaces, bypassing the need for Zakharyuta's Conjecture, and introduces novel bounds using Toeplitz operators and holomorphic polyhedra.

## Contribution

The authors provide a new proof of Kolmogorov width asymptotics in holomorphic spaces that does not depend on Zakharyuta's Conjecture, using eigenvalue concentration and Bergman-Weil formula techniques.

## Key findings

- Established sharp upper and lower bounds for Kolmogorov widths.
- Derived asymptotics for widths in strictly hyperconvex domains.
- Introduced eigenvalue concentration results for Toeplitz operators.

## Abstract

Given a domain $D$ in $\mathbb{C}^n$ and $K$ a compact subset of $D$, the set $\mathcal{A}_K^D$ of all restrictions of functions holomorphic on $D$ the modulus of which is bounded by $1$ is a compact subset of the Banach space $C(K)$ of continuous functions on $K$. The sequence $(d_m(\mathcal{A}_K^D))_{m\in \mathbb{N}}$ of Kolmogorov $m$-widths of $\mathcal{A}_K^D$ provides a measure of the degree of compactness of the set $\mathcal{A}_K^D$ in $C(K)$ and the study of its asymptotics has a long history, essentially going back to Kolmogorov's work on $\epsilon$-entropy of compact sets in the 1950s. In the 1980s Zakharyuta showed that for suitable $D$ and $K$ the asymptotics \begin{equation*}   \lim_{m\to \infty}\frac{- \log d_m(\mathcal{A}_K^D)}{m^{1/n}} =   2\pi \left ( \frac{n!}{C(K,D)}\right ) ^{1/n}\,, \end{equation*} where $C(K,D)$ is the Bedford-Taylor relative capacity of $K$ in $D$ is implied by a conjecture, now known as Zakharyuta's Conjecture, concerning the approximability of the regularised relative extremal function of $K$ and $D$ by certain pluricomplex Green functions. Zakharyuta's Conjecture was proved by Nivoche in 2004 thus settling the asymptotics above at the same time.   We shall give a new proof of the asymptotics above for $D$ strictly hyperconvex and $K$ non-pluripolar which does not rely on Zakharyuta's Conjecture. Instead we proceed more directly by a two-pronged approach establishing sharp upper and lower bounds for the Kolmogorov widths. The lower bounds follow from concentration results of independent interest for the eigenvalues of a certain family of Toeplitz operators, while the upper bounds follow from an application of the Bergman-Weil formula together with an exhaustion procedure by special holomorphic polyhedra.

## Full text

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## References

47 references — full list in the complete paper: https://tomesphere.com/paper/1906.00918/full.md

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Source: https://tomesphere.com/paper/1906.00918