无穷维球上紧凑全形自映射的沃尔夫壳

IF 1 3区 数学 Q1 MATHEMATICS Annali di Matematica Pura ed Applicata Pub Date : 2024-02-23 DOI:10.1007/s10231-024-01427-1
M. Mackey, P. Mellon
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引用次数: 0

摘要

对于大类(有限维和)无限维复巴纳赫空间 Z,B 是其开放的单位球,\(f:B/rightarrow B\) 是一个紧凑的全态无定点映射,我们引入并定义了 f 在 \(\partial B\) 中的 Wolff hull,即 W(f),并证明 W(f)近似于 f 的迭代序列 \((f^n)_n\)的所有次极限的图像。如果 Z 是一个希尔伯特空间,那么 Wolff hull 与 Wolff 点重合。回想一下,\((f^n)_n\)即使在有限维度中一般也不会收敛,f的紧凑性(即f(B)相对紧凑)是在无限维度希尔伯特球中收敛的必要条件,并且\((f^n)_n\)的所有积点\(\Gamma (f)\)都会将\B映射到\(\partial B\) (对于任何比B上的点式收敛拓扑更精细的拓扑)。f 的目标集是 $$\begin{aligned}T(f)=\bigcup _{g \in \Gamma (f)} g(B).\end{aligned}$$为了定位 T(f),我们使用了一个封闭凸全形体的概念,即为每个 \(x \in \partial B\) 的 \({text {Ch}}(x) \子集 \partial B\) 并定义了一个区分的沃尔夫体 W(f)。我们证明沃尔夫船体与 T(f) 的所有船体相交,即 $$\begin{aligned}W(f) \cap {text {Ch}}(x)\ne \emptyset \\hbox {for all} \x \in T(f).\end{aligned}$$如果 B 是希尔伯特球,W(f) 就是沃尔夫点,这就是通常的登乔伊-沃尔夫结果。我们的结果适用于所有具有同质球的反向巴拿赫空间(或者等价于所有有限秩 \(JB^*\)-三元组)。这些空间包括许多著名的算子空间,例如 L(H,K),其中 H 或 K 都是有限维的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

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The Wolff hull of a compact holomorphic self-map on an infinite dimensional ball

For large classes of (finite and) infinite dimensional complex Banach spaces Z, B its open unit ball and \(f:B\rightarrow B\) a compact holomorphic fixed-point free map, we introduce and define the Wolff hull, W(f), of f in \(\partial B\) and prove that W(f) is proximal to the images of all subsequential limits of the sequences of iterates \((f^n)_n\) of f. The Wolff hull generalises the concept of a Wolff point, where such a point can no longer be uniquely determined, and coincides with the Wolff point if Z is a Hilbert space. Recall that \((f^n)_n\) does not generally converge even in finite dimensions, compactness of f (i.e. f(B) is relatively compact) is necessary for convergence in the infinite dimensional Hilbert ball and all accumulation points \(\Gamma (f)\) of \((f^n)_n\) map B into \(\partial B\) (for any topology finer than the topology of pointwise convergence on B). The target set of f is

$$\begin{aligned} T(f)=\bigcup _{g \in \Gamma (f)} g(B). \end{aligned}$$

To locate T(f), we use a concept of closed convex holomorphic hull, \({\text {Ch}}(x) \subset \partial B\) for each \(x \in \partial B\) and define a distinguished Wolff hull W(f). We show that the Wolff hull intersects all hulls from T(f), namely

$$\begin{aligned} W(f) \cap {\text {Ch}}(x)\ne \emptyset \ \ \hbox {for all}\ \ x \in T(f). \end{aligned}$$

If B is the Hilbert ball, W(f) is the Wolff point, and this is the usual Denjoy–Wolff result. Our results are for all reflexive Banach spaces having a homogeneous ball (or equivalently, for all finite rank \(JB^*\)-triples). These include many well-known operator spaces, for example, L(HK), where either H or K is finite dimensional.

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来源期刊
CiteScore
2.10
自引率
10.00%
发文量
99
审稿时长
>12 weeks
期刊介绍: This journal, the oldest scientific periodical in Italy, was originally edited by Barnaba Tortolini and Francesco Brioschi and has appeared since 1850. Nowadays it is managed by a nonprofit organization, the Fondazione Annali di Matematica Pura ed Applicata, c.o. Dipartimento di Matematica "U. Dini", viale Morgagni 67A, 50134 Firenze, Italy, e-mail annali@math.unifi.it). A board of Italian university professors governs the Fondazione and appoints the editors of the journal, whose responsibility it is to supervise the refereeing process. The names of governors and editors appear on the front page of each issue. Their addresses appear in the title pages of each issue.
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Stable solutions to fractional semilinear equations: uniqueness, classification, and approximation results Systems of differential operators in time-periodic Gelfand–Shilov spaces Mutual estimates of time-frequency representations and uncertainty principles Measure data systems with Orlicz growth SYZ mirror symmetry of solvmanifolds
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