Pointwise Compactness in Spaces of Continuous Functions

Orihuela, J.

doi:10.1112/jlms/s2-36.1.143

Cited by 52 publications

(46 citation statements)

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“…The equality in (i) follows from Lemma 3 if we bear in mind that T ∪ {y * } is countably K-determined for every y * ∈ X * and therefore the space C p (T ∪{y * }) is angelic [41]. If (T, w) is countably K-determined (resp.…”

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confidence: 96%

“…The paper [50] is a milestone in the study of Banach spaces which are countably K-determined when endowed with their weak topologies. The main result in [41] states that if T is a countably K-determined space then C p (T ) is angelic.…”

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confidence: 99%

“…A topological space T is said to be angelic if, whenever A is a relatively countably compact subset of T , its closure A is compact and each element of A is a limit of a sequence in A; good references for angelic spaces are [15] and [41]. C p (T ) stands for the space of real continuous functions endowed with the topology of pointwise convergence on T .…”

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confidence: 99%

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James boundaries and σ-fragmented selectors

2008

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Abstract. We study the boundary structure for w * -compact subsets of dual Banach spaces. To be more precise, for a Banach space X, 0 < ε < 1 and a subset T of the dual space X * such that S {B(t, ε) : t ∈ T } contains a James boundary for BX * we study different kinds of conditions on T , besides T being countable, which ensure thatWe analyze two different non-separable cases where the equality (SP) holds: (a) if J : X → 2 B X * is the duality mapping and there exists a σ-fragmented map f : X → X * such that B(f (x), ε) ∩ J(x) = ∅ for every x ∈ X, then (SP) holds for T = f (X) and in this case X is Asplund; (b) if T is weakly countably K-determined then (SP) holds, X * is weakly countably K-determined and moreover for every James boundary B of BX * we have BX * = co(B)· . Both approaches use Simons' inequality and ideas exploited by Godefroy in the separable case (i.e., when T is countable). While proving (a) we show that X is Asplund if, and only if, the duality mapping has an ε-selector, 0 < ε < 1, that sends separable sets into separable ones. A consequence is that the dual unit ball BX * is norm fragmented if, and only if, it is norm ε-fragmented for some fixed 0 < ε < 1. Our analysis is completed by a characterization of those Banach spaces (not necessarily separable) without copies of 1 via the structure of the boundaries of w * -compact sets of their duals. Several applications and complementary results are proved. Our results extend to the non-separable case results by Godefroy, Contreras-Payá and Rodé.

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James boundaries and σ-fragmented selectors

2008

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“…(IV) A topological space T is said to be angelic if, whenever C is a relatively countably compact subset of T , its closure C is compact and each element of C is a limit of a sequence in C. It is known that (C(X), τ p ) is angelic whenever X is K-analytic (see [22] …”

Section: Lemma 7 Let X Be a Tikhonov Space Then The G δ -Topology Fmentioning

confidence: 99%

The Lindelöf property and σ-fragmentability

Cascales

Namioka

2003

Fund. Math.

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Abstract. In the previous paper, we, together with J. Orihuela, showed that a compact subset X of the product space [−1, 1] D is fragmented by the uniform metric if and only if X is Lindelöf with respect to the topology γ(D) of uniform convergence on countable subsets of D. In the present paper we generalize the previous result to the case where X is K-analytic. Stated more precisely, a K-analytic subspace X of [−1, 1] D is σ-fragmented by the uniform metric if and only if (X, γ(D)) is Lindelöf, and if this is the case then (X, γ(D)) N is also Lindelöf. We give several applications of this theorem in areas of topology and Banach spaces. We also show by examples that the main theorem cannot be extended to the cases where X isČech-analytic and Lindelöf or countably K-determined.

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“…The approximation Theorem 7 (extending [2, Theorem 3.2] to Fréchet spaces) is the quantitative version of the weak angelicity of a Fréchet space. Theorem 14 and Corollary 15 provide a quantitative version of Orihuela's angelic theorem [18,Theorem 3] showing that ck(H) ≤d(H, C(X, Z)) ≤ 17ck(H), where H ⊂ Z X is relatively compact and C(X, Z) is the space of Z-valued continuous functions for webcompact spaces X and separable metric space Z. If X is web-compact and normal and Z := R, then ck(H) ≤d(H, C(X)) ≤ 12ck(H).…”

Section: Introductionmentioning

confidence: 99%