The instability of nonseparable complete Erdős spaces and representations in ℝ-trees

• Autorzy: Jan J. Dijkstra , Kirsten I. S. Valkenburg
• Języki publikacji: EN

Abstrakty

EN

One way to generalize complete Erdős space $𝔈_{c}$ is to consider uncountable products of zero-dimensional $G_{δ}$-subsets of the real line, intersected with an appropriate Banach space. The resulting (nonseparable) complete Erdős spaces can be fully classified by only two cardinal invariants, as done in an earlier paper of the authors together with J. van Mill. As we think this is the correct way to generalize the concept of complete Erdős space to a nonseparable setting, natural questions arise about analogies between the behaviour of complete Erdős space and its generalizations. The discovery that $𝔈_{c}$ is unstable, by which we mean that the space is not homeomorphic to its infinite power, by Dijkstra, van Mill, and Steprāns, led to the solution of a series of problems in the literature. In the present paper we prove by a different method that our nonseparable complete Erdős spaces are also unstable. Another application of $𝔈_{c}$ is that it is homeomorphic to the endpoint set of the universal separable ℝ-tree. Our standard models can also be represented as endpoint sets of more general ℝ-trees, but some universality properties are lost

Kategorie tematyczne

• 54F50: Spaces of dimension ≤ 1 ; curves, dendrites
• 46B26: Nonseparable Banach spaces

• Wydawca: Institute of Mathematics Polish Academy of Sciences
• Czasopismo: Fundamenta Mathematicae
• Rocznik: 2010
• Tom: 207
• Numer: 3
• Strony: 197-210

Daty

wydano

2010

Twórcy

autor

Jan J. Dijkstra

• Faculteit der Exacte Wetenschappen/Afdeling Wiskunde, Vrije Universiteit, De Boelelaan 1081a, 1081 HV Amsterdam, The Netherlands

autor

Kirsten I. S. Valkenburg

• Faculteit der Exacte Wetenschappen/Afdeling Wiskunde, Vrije Universiteit, De Boelelaan 1081a, 1081 HV Amsterdam, The Netherlands

Identyfikatory

DOI

10.4064/fm207-3-1