scholarly journals Generalization of I.Vekua's integral representations of holomorphic functions and their application to the Riemann–Hilbert–Poincaré problem

2011 ◽  
Vol 9 (3) ◽  
pp. 217-244 ◽  
Author(s):  
Vakhtang Kokilashvili ◽  
Vakhtang Paatashvili
Keyword(s):  
Holomorphic Functions ◽  
Integral Representations ◽  
Closed Domain ◽  
Cauchy Type ◽  
Cauchy Type Integral ◽  
Smooth Curves ◽  
Type Integral ◽  
Cusp Points ◽  
Poincaré Problem ◽  
The Given

I. Vekua’s integral representations of holomorphic functions, whosem-th derivative (m≥0) is Hӧlder-continuous in a closed domain bounded by the Lyapunov curve, are generalized for analytic functions whosem-th derivative is representable by a Cauchy type integral whose density is from variable exponent Lebesgue spaceLp(⋅)(Γ;ω)with power weight. An integration curve is taken from a wide class of piecewise-smooth curves admitting cusp points for certainpandω. This makes it possible to obtain analogues ofI. Vekua’s results to the Riemann–Hilbert–Poincaré problem under new general assumptions about the desired and the given elements of the problem. It is established that the solvability essentially depends on the geometry of a boundary, a weight functionω(t)and a functionp(t).

scholarly journals Line antiderivations over local fields and their applications

2005 ◽  
Vol 2005 (2) ◽  
pp. 263-309 ◽  
Author(s):  
S. V. Ludkovsky
Keyword(s):  
Laurent Series ◽  
Differential Forms ◽  
Holomorphic Functions ◽  
Integral Representations ◽  
Local Fields ◽  
Cauchy Type ◽  
Series Representations

A non-Archimedean antiderivational line analog of the Cauchy-type line integration is defined and investigated over local fields. Classes of non-Archimedean holomorphic functions are defined and studied. Residues of functions are studied; Laurent series representations are described. Moreover, non-Archimedean antiderivational analogs of integral representations of functions and differential forms such as the Cauchy-Green, Martinelli-Bochner, Leray, Koppelman, and Koppelman-Leray formulas are investigated. Applications to manifold and operator theories are studied.

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