Litcius/Paper detail

Inverse and implicit function theorems for noncommutative functions on operator domains

Mark E. Mancuso

2020Journal of Operator Theory29 citationsDOI

Abstract

Classically, a noncommutative function is defined on a graded domain of tuples of square matrices. In this note, we introduce a notion of a noncommutative function defined on a domain Ω⊂B(H)d, where H is an infinite dimensional Hilbert space. Inverse and implicit function theorems in this setting are established. When these operatorial noncommutative functions are suitably continuous in the strong operator topology, a noncommutative dilation-theoretic construction is used to show that the assumptions on their derivatives may be relaxed from boundedness below to injectivity.

Topics & Concepts

Noncommutative geometryMathematicsInversePure mathematicsHilbert spaceOperator (biology)Noncommutative algebraic geometryDilation (metric space)Function (biology)Domain (mathematical analysis)Spectral tripleNoncommutative quantum field theoryMathematical analysisCombinatoricsTranscription factorGeneEvolutionary biologyChemistryRepressorGeometryBiologyBiochemistryHolomorphic and Operator TheoryAdvanced Operator Algebra ResearchMatrix Theory and Algorithms