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RESEARCH PRODUCT
A bilinear version of Orlicz–Pettis theorem
Teresa SignesJ. M. CalabuigOscar Blascosubject
SequenceApplied MathematicsMathematical analysisBanach spaceBilinear interpolationAbsolute and strong summabilitySpace (mathematics)Sequence spacesSequence spaceCombinatoricsBounded functionBanach sequence spacesAnalysisMathematicsdescription
Abstract Given three Banach spaces X, Y and Z and a bounded bilinear map B : X × Y → Z , a sequence x = ( x n ) n ⊆ X is called B -absolutely summable if ∑ n = 1 ∞ ‖ B ( x n , y ) ‖ Z is finite for any y ∈ Y . Connections of this space with l weak 1 ( X ) are presented. A sequence x = ( x n ) n ⊆ X is called B -unconditionally summable if ∑ n = 1 ∞ | 〈 B ( x n , y ) , z ∗ 〉 | is finite for any y ∈ Y and z ∗ ∈ Z ∗ and for any M ⊆ N there exists x M ∈ X for which ∑ n ∈ M 〈 B ( x n , y ) , z ∗ 〉 = 〈 B ( x M , y ) , z ∗ 〉 for all y ∈ Y and z ∗ ∈ Z ∗ . A bilinear version of Orlicz–Pettis theorem is given in this setting and some applications are presented.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2008-12-01 | Journal of Mathematical Analysis and Applications |