It is well known that if φ(t) ≡ t, then the system ${\phi ⁿ\left(t\right)}_{n=0}^{\infty }$ is not a Schauder basis in L₂[0,1]. It is natural to ask whether there is a function φ for which the power system ${\phi ⁿ\left(t\right)}_{n=0}^{\infty }$ is a basis in some Lebesgue space $L_p$. The aim of this short note is to show that the answer to this question is negative.

Étant donnés un compact $K$ du plan complexe, et une mesure non nulle sur $K$, on étudie $H^{\infty }\left(\mu \right)$, l’adhérence dans $L^{\infty }\left(\mu \right)$, pour la topologie $\sigma \left(L^{\infty }\right(\mu ),L^1(\mu \left)\right)$, de l’algèbre des fractions rationnelles d’une variable complexe, à pôles hors de $K$. Le résultat principal obtenu est qu’il existe un sous-ensemble $E_{\mu }$ de $K$, éventuellement vide, mesurable pour la mesure de Lebesgue plane, et une mesure ${\mu }_s$, éventuellement nulle, absolument continue par rapport à la mesure $\mu$, tels que : $H^{\infty }\left(\mu \right)$ soit isométriquement isomorphe à $H^{\infty }({\lambda }_{E_{\mu }})\oplus L^{\infty }({\mu }_s)$, où ${\lambda }_{E_{\mu }}$ désigne la...

With the help of recent adjacent dyadic constructions by Hytönen and the author, we give an alternative proof of results of Lechner, Müller and Passenbrunner about the $L^p$-boundedness of shift operators acting on functions $f\in L^p(X;E)$ where 1 < p < ∞, X is a metric space and E is a UMD space.

We consider the topological algebra of (Taylor) multipliers on spaces of real analytic functions of one variable, i.e., maps for which monomials are eigenvectors. We describe multiplicative functionals and algebra homomorphisms on that algebra as well as idempotents in it. We show that it is never a Q-algebra and never locally m-convex. In particular, we show that Taylor multiplier sequences cease to be so after most permutations.

We show that, given a set E ⊂ 𝕋 of measure zero, the set of continuous functions whose Fourier series expansion is divergent at any point t ∈ E is dense-algebrable, i.e. there exists an infinite-dimensional, infinitely generated dense subalgebra of 𝓒(𝕋) every non-zero element of which has a Fourier series expansion divergent in E.

We provide sharp conditions on a measure μ defined on a measurable space X guaranteeing that the family of functions in the Lebesgue space $L^p(\mu ,X)$ (p ≥ 1) which are not q-integrable for any q > p (or any q < p) contains large subspaces of $L^p(\mu ,X)$ (without zero). This improves recent results due to Aron, García, Muñoz, Palmberg, Pérez, Puglisi and Seoane. It is also shown that many non-q-integrable functions can even be obtained on any nonempty open subset of X, assuming that X is a topological space and...

The algebraic and topological reflexivity of C(X) and C(X,E) are investigated by using representations for the into isometries due to Holsztyński and Cambern.

Nella prima parte della nota sono studiate le proprietà di connessione dei sottospazi dello spettro di un anello. Con l’ausilio dei risultati ottenuti, si stabiliscono le condizioni necessarie e sufficienti affinchè un’algebra reale assolutamente piatta sia isomorfa ad un’algebra di funzioni continue a valori reali su un $P$-spazio, del quale determini la topologia. Ulteriori condizioni sono necessarie e sufficienti affinché un’algebra reale assolutamente piatta sia isomorfa all’algebra di tutte le...

This article deals with bounding sets in real Banach spaces E with respect to the functions in A(E), the algebra of real analytic functions on E, as well as to various subalgebras of A(E). These bounding sets are shown to be relatively weakly compact and the question whether they are always relatively compact in the norm topology is reduced to the study of the action on the set of unit vectors in $l_{\infty }$ of the corresponding functions in $A\left(l_{\infty }\right)$. These results are achieved by studying the homomorphisms on the...

In this paper weare interested in subsets of a real Banach space on which different classes of functions are bounded.

Let A be a locally convex, unital topological algebra whose group of units $A^{\times }$ is open and such that inversion $\iota :A^{\times }\to A^{\times }$ is continuous. Then inversion is analytic, and thus $A^{\times }$ is an analytic Lie group. We show that if A is sequentially complete (or, more generally, Mackey complete), then $A^{\times }$ has a locally diffeomorphic exponential function and multiplication is given locally by the Baker-Campbell-Hausdorff series. In contrast, for suitable non-Mackey complete A, the unit group $A^{\times }$ is an analytic Lie group without...