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JOURNALS // Zapiski Nauchnykh Seminarov POMI // Archive

Zap. Nauchn. Sem. POMI, 2001 Volume 276, Pages 253–275 (Mi znsl1420)

This article is cited in 17 papers

Problems of extremal decomposition of the Riemann sphere

G. V. Kuz'mina

St. Petersburg Department of V. A. Steklov Institute of Mathematics, Russian Academy of Sciences

Abstract: We apply a variant of the method of the extremal metric to some problems concerning extremal decompositions and related problems. Let $\mathbf a=\{a_1,\dots,a_n\}$ be a system of distinct points on $\overline{\mathbb C}$ and let $\mathscr D(\mathbf a)$ be the family of all systems $\mathbb D=\{D_1,\dots,D_n\}$ of nonoverlapping simply connected domains on $\overline{\mathbb C}$ such that $a_k\in D_k, k=1,\dots,n$. Let
$$ J(a)=\max\limits_{\mathbb D\subset\mathscr D(\mathbf a)}\biggl\{2\pi\sum_{k=1}^nM(D_k,a_k)-\frac2{n-1}\sum_{1\le k<l\le n}\log|a_k-a_l|\biggr\}, $$
where $M(D_k,a_k)$ is the reduced module of the domain $D_k$ with respect to the point $a_k$. At present, the problem concerning the value $\max\limits_{\mathbf a}J(a)$ was solved completely for $n=2,3,4$. In this work, we continue the previous author's investigations and consider the case $n=5$. In addition, we consider the problem concerning the maximum of the sum
$$ \alpha^2\bigl\{M(D_0,0)+M(D_{n+1},\infty)\bigr\}+\sum_{k=1}^nM(D_k,a_k) $$
in the family $\mathscr D(\mathbf a)$ introduced above, where $\mathbf a=\{0,a_1,\dots,a_n,\infty\}$, $a_k$, $k=1,\dots,n$, are arbitrary points of the circle $|z|=1$, and $\alpha$ is a positive number. We prove that if $\alpha/n\le1/\sqrt8$, then the maximum is attained $\alpha$ only for systems of equidistant points of the circle $|z|=1$. For $\alpha/n=1/\sqrt8$, this result was obtained earlier by Dubinin who applied the method of symmetrization. It is shown that if $n\ge2$, where $\alpha/n\ge1/2$ is an even number, then equidistant points of the circle $|z|=1$ do not realize the indicated maximum.

UDC: 517.54

Received: 15.03.2001


 English version:
Journal of Mathematical Sciences (New York), 2003, 118:1, 4880–4894

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