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The structure of a Nuttall partition into sheets of some class of four-sheeted Riemann surfaces is studied. The corresponding class of multivalued analytic functions is a special class of algebraic functions of fourth order generated by the function inverse to the Zhukovskii function. We show that in this class of four-sheeted Riemann surfaces, the boundary between the second and third sheets of the Nuttall partition of the Riemann surface, is completely characterized in terms of an extremal problem posed on the two-sheeted Riemann surface of the function $w$ defined by the equation $w^2=z^2-1$. In particular, we show that in this class of functions the boundary between the second and third sheets does not intersect both the boundary between the first and second sheets and the boundary between the third and fourth sheets.
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We study the Weil-Petersson geometry for holomorphic families of Riemann Surfaces equipped with the unique conical metric of constant curvature -1.
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We develop linear discretization of complex analysis, originally introduced by R. Isaacs, J. Ferrand, R. Duffin, and C. Mercat. We prove convergence of discrete period matrices and discrete Abelian integrals to their continuous counterparts. We also