The Lindelöf number of C p(X)×C p(X) for strongly zero-dimensional X

Oleg Okunev

Displaying similar documents to “The Lindelöf number of C p(X)×C p(X) for strongly zero-dimensional X”

LΣ(≤ ω)-spaces and spaces of continuous functions

Israel Lara, Oleg Okunev (2010)

Open Mathematics

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We present a few results and problems related to spaces of continuous functions with the topology of pointwise convergence and the classes of LΣ(≤ ω)-spaces; in particular, we prove that every Gul’ko compact space of cardinality less or equal to $𝔠$ is an LΣ(≤ ω)-space.

How sensitive is $C_{p} (X, Y)$ to changes in $X$ and/or $Y$ ?

Raushan Z. Buzyakova (2008)

Commentationes Mathematicae Universitatis Carolinae

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We investigate how the Lindelöf property of the function space $C_{p} (X, Y)$ is influenced by slight changes in $X$ and/or $Y$ .

Function spaces on ordinals

Rafał Górak (2005)

Commentationes Mathematicae Universitatis Carolinae

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We give a partial classification of spaces $C_{p} ([1, α])$ of continuous real valued functions on ordinals with the topology of pointwise convergence with respect to homeomorphisms and uniform homeomorphisms.

A note on condensations of $C_{p} (X)$ onto compacta

Aleksander V. Arhangel&#039;skii, Oleg I. Pavlov (2002)

Commentationes Mathematicae Universitatis Carolinae

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A condensation is a one-to-one continuous mapping onto. It is shown that the space $C_{p} (X)$ of real-valued continuous functions on $X$ in the topology of pointwise convergence very often cannot be condensed onto a compact Hausdorff space. In particular, this is so for any non-metrizable Eberlein compactum $X$ (Theorem 19). However, there exists a non-metrizable compactum $X$ such that $C_{p} (X)$ condenses onto a metrizable compactum (Theorem 10). Several curious open problems are formulated.

On the Lindelöf property of spaces of continuous functions over a Tychonoff space and its subspaces

Oleg Okunev (2009)

Commentationes Mathematicae Universitatis Carolinae

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We study relations between the Lindelöf property in the spaces of continuous functions with the topology of pointwise convergence over a Tychonoff space and over its subspaces. We prove, in particular, the following: a) if $C_{p} (X)$ is Lindelöf, $Y = X \cup {p}$ , and the point $p$ has countable character in $Y$ , then $C_{p} (Y)$ is Lindelöf; b) if $Y$ is a cozero subspace of a Tychonoff space $X$ , then $l (C_{p} {(Y)}^{ω}) \leq l (C_{p} {(X)}^{ω})$ and $ext (C_{p} {(Y)}^{ω}) \leq ext (C_{p} {(X)}^{ω})$ .

Displaying similar documents to “The Lindelöf number of C p(X)×C p(X) for strongly zero-dimensional X”

LΣ(≤ ω)-spaces and spaces of continuous functions

How sensitive is C p ( X , Y ) to changes in X and/or Y ?

Function spaces on ordinals

A note on condensations of C p ( X ) onto compacta

On the Lindelöf property of spaces of continuous functions over a Tychonoff space and its subspaces

How sensitive is $C_{p} (X, Y)$ to changes in $X$ and/or $Y$ ?

A note on condensations of $C_{p} (X)$ onto compacta