A Hilbert Transform for Matrix Functions on Fractal Domains

We consider Hölder continuous circulant (2 × 2) matrix functions defined on the fractal boundary Γ of a Jordan domain Ω in . The main goal is to establish a Hilbert transform for such functions, within the framework of Hermitian Clifford analysis. This is a higher dimensional function theory centere...

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Bibliographic Details
Published in:Complex analysis and operator theory 2012-04, Vol.6 (2), p.359-372
Main Authors: Abreu-Blaya, R., Bory-Reyes, J., Brackx, F., De Schepper, H., Sommen, F.
Format: Article
Language:English
Subjects:
Analysis
Mathematics
Mathematics and Statistics
Operator Theory
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Summary:We consider Hölder continuous circulant (2 × 2) matrix functions defined on the fractal boundary Γ of a Jordan domain Ω in . The main goal is to establish a Hilbert transform for such functions, within the framework of Hermitian Clifford analysis. This is a higher dimensional function theory centered around the simultaneous null solutions of two first order vector valued differential operators, called Hermitian Dirac operators. In Brackx et al. (Bull Braz Math Soc 40(3): 395–416, 2009 ) a Hermitian Cauchy integral was constructed by means of a matrix approach using circulant (2 × 2) matrix functions, from which a Hilbert transform was derived in Brackx et al. (J Math Anal Appl 344: 1068–1078, 2008 ) for the case of domains with smooth boundary. However, crucial parts of the method are not extendable to the case where the boundary of the considered domain is fractal. At present we propose an alternative approach which will enable us to define a new Hermitian Hilbert transform in that case. As a consequence, we give necessary and sufficient conditions for the Hermitian monogenicity of a circulant matrix function in the interior and exterior of Ω, in terms of its boundary value , extending in this way also results of Abreu Blaya et al. (Bound. Value Probl. 2008: 2008 ) (article ID 425256), (article ID 385874), where Γ is required to be Ahlfors–David regular.
ISSN:1661-8254
1661-8262
DOI:10.1007/s11785-010-0121-2