Norm attaining multilinear forms on .
Norm attaining operators
Norm attaining operators versus bilinear forms.
The well known Bishop-Phelps Theorem asserts that the set of norm attaining linear forms on a Banach space is dense in the dual space [3]. This note is an outline of recent results by Y. S. Choi [5] and C. Finet and the author [7], which clarify the relation between two different ways of extending this theorem.
Norm continuity of weakly quasi-continuous mappings
Let be the class of Banach spaces X for which every weakly quasi-continuous mapping f: A → X defined on an α-favorable space A is norm continuous at the points of a dense subset of A. We will show that this class is stable under c₀-sums and -sums of Banach spaces for 1 ≤ p < ∞.
Norm fragmented weak* compact sets.
A Banach space which is a Cech-analytic space in its weak topology has fourteen measure-theoretic, geometric and topological properties. In a dual Banach space with its weak-star topology essentially the same properties are all equivalent one to another.
Normal bases for non-archimedean spaces of continuous functions.
Normal bases for the space of continuous functions defined on a subset of Zp.
Let K be a non-archimedean valued field which contains Qp and suppose that K is complete for the valuation |·|, which extends the p-adic valuation. Vq is the closure of the set {aqn|n = 0,1,2,...} where a and q are two units of Zp, q not a root of unity. C(Vq → K) is the Banach space of continuous functions from Vq to K, equipped with the supremum norm. Our aim is to find normal bases (rn(x)) for C(Vq → K), where rn(x) does not have to be a polynomial.
Normal measures and smooth points
Normal structure and common fixed point properties for semigroups of nonexpansive mappings in Banach spaces.
Normal structure and weakly normal structure of Orlicz spaces
Every Orlicz space equipped with Orlicz norm has weak sum property, therefore, it has weakly normal structure and fixed point property. A criterion of sum property also of normal structure for such spaces is given as well, which shows that every Orlicz space has isonormal structure.
Normal Structure of Banach Spaces.
Normal structure of Lorentz-Orlicz spaces
Let ϕ: ℝ → ℝ₊ ∪ 0 be an even convex continuous function with ϕ(0) = 0 and ϕ(u) > 0 for all u > 0 and let w be a weight function. u₀ and v₀ are defined by u₀ = supu: ϕ is linear on (0,u), v₀=supv: w is constant on (0,v) (where sup∅ = 0). We prove the following theorem. Theorem. Suppose that (respectively, ) is an order continuous Lorentz-Orlicz space. (1) has normal structure if and only if u₀ = 0 (respectively, (2) has weakly normal structure if and only if .
Normal structure of Musielak-Orlicz spaces.
Normalized weakly null sequence with no unconditional subsequence
Norm-attaining polynomials and differentiability
We give a polynomial version of Shmul'yan's Test, characterizing the polynomials that strongly attain their norm as those at which the norm is Fréchet differentiable. We also characterize the Gateaux differentiability of the norm. Finally we study those properties for some classical Banach spaces.
Normed spaces over valued fields.
Norming points and unique minimality of orthogonal projections.
Norms for copulas.
Norms in product spaces which preserve approximation properties.
Norms of hypercyclic sequences.