6533b86ffe1ef96bd12cd103

RESEARCH PRODUCT

Infinite Dimensional Holomorphy

Manuel MaestreAndreas DefantPablo Sevilla-perisDomingo García

subject

Pure mathematicsMathematics::Complex VariablesHomogeneous polynomialBanach spaceHolomorphic functionDifferentiable functionHartogs' theoremInfinite-dimensional holomorphyMathematics::Symplectic GeometryCauchy's integral formulaAnalytic functionMathematics

description

We give an introduction to vector-valued holomorphic functions in Banach spaces, defined through Frechet differentiability. Every function defined on a Reinhardt domain of a finite-dimensional Banach space is analytic, i.e. can be represented by a monomial series expansion, where the family of coefficients is given through a Cauchy integral formula. Every separate holomorphic (holomorphic on each variable) function is holomorphic. This is Hartogs’ theorem, which is proved using Leja’s polynomial lemma. For infinite-dimensional spaces, homogeneous polynomials are defined as the diagonal of multilinear mappings. A function is holomorphic if and only if it is Gâteaux holomorphic and continuous, if and only if it has representation as a series of homogeneous polynomials (known as Taylor expansion). A function is weak holomorphic if the composition with every functional is holomorphic. A function is holomorphic if and only if it is weak holomorphic. Analytic functions are holomorphic.

yearjournalcountryeditionlanguage
2019-08-08
https://doi.org/10.1017/9781108691611.018