Wolff–Denjoy theorems in nonsmooth convex domains

Abate, Marco; Raissy, Jasmin

doi:10.1007/s10231-013-0341-y

Cited by 36 publications

(36 citation statements)

References 36 publications

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“…(1) f has a fixed point in D; or In case D is a bounded strictly convex domain, a Denjoy-Wolff theorem of the previous type has been proved by Budzyńska [19], while, for bounded C 2 -smooth strictly C-linearly convex domains, the result is due to Abate and Raissy [6].…”

Section: Introduction and Resultsmentioning

confidence: 99%

Homeomorphic extension of quasi-isometries for convex domains in $${\mathbb {C}}^d$$ and iteration theory

2020

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We study the homeomorphic extension of biholomorphisms between convex domains in C d without boundary regularity and boundedness assumptions. Our approach relies on methods from coarse geometry, namely the correspondence between the Gromov boundary and the topological boundaries of the domains and the dynamical properties of commuting 1-Lipschitz maps in Gromov hyperbolic spaces. This approach not only allows us to prove extensions for biholomorphisms, but for more general quasi-isometries between the domains endowed with their Kobayashi distances.

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Section: Introduction and Resultsmentioning

confidence: 99%

Homeomorphic extension of quasi-isometries for convex domains in $${\mathbb {C}}^d$$ and iteration theory

2020

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“…For various reasons having to do with their intrinsic geometry, convex domains predominate among recent generalizations of the Wolff-Denjoy theorem: see, for instance, [8,11,4,29] and several of the results in [20]. Visibility in the sense of Definition 1.1 is one of the key ingredients in the proof by Bharali-Zimmer of a generalization [9, Theorem 1.10] of Result 1.7 to taut Goldilocks domains.…”

Section: 2mentioning

confidence: 99%

A weak notion of visibility, a family of examples, and Wolff-Denjoy theorems

Bharali¹,

Maitra²

2021

Annali Scuola Normale Superiore - Classe Di Scienze

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We investigate a form of visibility introduced recently by Bharali and Zimmerand shown to be possessed by a class of domains called Goldilocks domains. The range of theorems established for these domains stem from this form of visibility together with certain quantitative estimates that define Goldilocks domains. We show that some of the theorems alluded to follow merely from the latter notion of visibility. We call those domains that possess this property visibility domains with respect to the Kobayashi distance. We provide a sufficient condition for a domain in C n to be a visibility domain. A part of this paper is devoted to constructing a family of domains that are visibility domains with respect to the Kobayashi distance but are not Goldilocks domains. Our notion of visibility is reminiscent of uniform visibility in the context of CAT(0) spaces. However, this is an imperfect analogy because, given a bounded domain Ω in C n , n 2, it is, in general, not even known whether the metric space (Ω, kΩ) (where kΩ is the Kobayashi distance) is a geodesic space. Yet, with just this weak property, we establish two new Wolff-Denjoy-type theorems.2010 Mathematics Subject Classification. Primary: 32F45, 32H50, 53C23; Secondary: 32U05.

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“…In this paper we introduce a completely new prime ends theory defined via horospheres related to sequences. Horospheres have been used pretty much in geometric function theory in one and several variables, especially for studying iteration theory, Julia's Lemma, Denjoy-Wolff theorems (see, e.g., [1,3,4,14,15,37,21] and references therein), and they are a particular instance of a general notion of horospheres in locally complete metric spaces, see [17,6]. In complex geometry, horospheres defined by using complex geodesics are sometimes called Busemann horospheres.…”

Section: Introductionmentioning

confidence: 99%

Horosphere topology

Bracci¹,

Gaussier²

2020

Annali Scuola Normale Superiore - Classe Di Scienze

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We introduce a prime end-type theory on complete Kobayashi hyperbolic manifolds using horosphere sequences. This allows to introduce a new notion of boundary-new even in the unit disc in the complex space-the horosphere boundary, and a topology on the manifold together with its horosphere boundary, the horosphere topology. We prove that a bounded strongly pseudoconvex domain endowed with the horosphere topology is homeomorphic to its Euclidean closure, while for the polydisc such a horosphere topology is not even Hausdorff and is different from the Gromov topology. We use this theory to study boundary behavior of univalent maps from bounded strongly pseudoconvex domains.

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Wolff–Denjoy theorems in nonsmooth convex domains

Cited by 36 publications

References 36 publications

Homeomorphic extension of quasi-isometries for convex domains in $${\mathbb {C}}^d$$ and iteration theory

Homeomorphic extension of quasi-isometries for convex domains in $${\mathbb {C}}^d$$ and iteration theory

A weak notion of visibility, a family of examples, and Wolff-Denjoy theorems

Horosphere topology

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