On some mixed boundary value problem for pair of piecewise analytic functions in a multiply connected domain (Q2761513)

Let \(D^{+}\subset{\mathbb C}\) be a finite \((m+1)\)-connected domain with boundary \(\Gamma\) and let \(\gamma\) be a simple smooth closed curve in the domain \(D^{+}\). We denote by \(\phi^{\pm}_1(t), \phi^{\pm}_2(t)\) the limit values of functions \(\phi_1(z),\phi_2(z)\), as \(z\to t\in\gamma\) from the left or from the right with respect to the curve \(\gamma\). This article deals with the problem of finding of piecewise analytic functions \(\phi_1(z)\) and \(\phi_2(z)\) in \(D^{+}\), \(H\)-continuously extendable on curve \(\Gamma\) and \(\gamma\) with conjunction line \(\gamma\) and boundary conditions \(\phi^{+}_1(t)=a(t)\overline{\phi^{-}_2(t)}+h(t),\;t\in\Gamma\), \(\phi^{+}_1(t)=G_1(t)\phi^{-}_1(t)+g_1(t),\;t\in\gamma\), \(\phi^{+}_2(t)=G_2(t)\phi^{-}_2(t)+g_2(t),\;t\in\gamma\), where the given functions \(a(t), h(t), G_1(t), G_2(t), g_1(t), g_2(t)\) are \(H\)-continuous, \(a(t)\neq0, G_1(t)\neq0, G_2(t)\neq0\). The Noether theorem is proved. In the non-singular case the number of linearly independent solutions of the homogeneous boundary value problem and the number of solvability conditions for the non-homogeneous boundary value problem are obtained. In the singular case the exact estimations for these numbers are derived.