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Properties of a polyanalytic functional calculus on the <i>S</i>‐spectrum

Antonino De Martino, Stefano Pinton

2023Mathematische Nachrichten13 citationsDOI

Abstract

Abstract The Fueter mapping theorem gives a constructive way to extend holomorphic functions of one complex variable to monogenic functions, that is, null solutions of the generalized Cauchy–Riemann operator in , denoted by . This theorem is divided in two steps. In the first step, a holomorphic function is extended to a slice hyperholomorphic function. The Cauchy formula for this type of functions is the starting point of the S ‐functional calculus. In the second step, a monogenic function is obtained by applying the Laplace operator in four real variables, namely, Δ, to a slice hyperholomorphic function. The polyanalytic functional calculus, that we study in this paper, is based on the factorization of . Instead of applying directly the Laplace operator to a slice hyperholomorphic function, we apply first the operator and we get a polyanalytic function of order 2, that is, a function that belongs to the kernel of . We can represent this type of functions in an integral form and then we can define the polyanalytic functional calculus on S ‐spectrum. The main goal of this paper is to show the principal properties of this functional calculus. In particular, we study a resolvent equation suitable for proving a product rule and generate the Riesz projectors.

Topics & Concepts

MathematicsFunctional calculusOperator (biology)Function (biology)Kernel (algebra)Pure mathematicsSpectrum (functional analysis)Holomorphic functional calculusLaplace operatorCauchy's integral formulaCalculus (dental)Mathematical analysisAlgebra over a fieldCauchy problemFinite-rank operatorPhysicsInitial value problemTranscription factorDentistryBiologyQuantum mechanicsGeneMedicineChemistryEvolutionary biologyBanach spaceRepressorBiochemistryAlgebraic and Geometric AnalysisHolomorphic and Operator TheoryMathematical Analysis and Transform Methods