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February 2018 Green function, Painlevé VI equation, and Eisenstein series of weight one
Zhijie Chen, Ting-Jung Kuo, Chang-Shou Lin, Chin-Lung Wang
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J. Differential Geom. 108(2): 185-241 (February 2018). DOI: 10.4310/jdg/1518490817


The behavior and the location of singular points of a solution to Painlevé VI equation could encode important geometric properties. For example, Hitchin’s formula indicates that singular points of algebraic solutions are exactly the zeros of Eisenstein series of weight one. In this paper, we study the problem: How many singular points of a solution $\lambda (t)$ to the Painlevé VI equation with parameter $(\frac{1}{8}, \frac{-1}{8}, \frac{1}{8}, \frac{3}{8})$ might have in $\mathbb{C} \setminus \lbrace 0, 1\rbrace$? Here $t_0 \in \mathbb{C} \setminus \lbrace 0, 1\rbrace$ is called a singular point of $\lambda (t)$ if $\lambda (t_0) \in \lbrace 0, 1, t_0, \infty \rbrace$. Based on Hitchin’s formula, we explore the connection of this problem with Green function and the Eisenstein series of weight one. Among other things, we prove:

(i) There are only three solutions which have no singular points in $\mathbb{C} \setminus \lbrace 0, 1\rbrace$. (ii) For a special type of solutions (called real solutions here), any branch of a solution has at most two singular points (in particular, at most one pole) in $\mathbb{C} \setminus \lbrace 0, 1\rbrace$}. (iii) Any Riccati solution has singular points in $\mathbb{C} \setminus \lbrace 0, 1\rbrace$. (iv) For each $N \geq 5$ and $N \neq 6$, we calculate the number of the real $j$-values of zeros of the Eisenstein series $\mathfrak{E}^N_1 (\tau ; k_1, k_2)$ of weight one, where $(k_1, k_2)$ runs over ${[0, N-1]}^2$ with $\mathrm{gcd}(k_1, k_2, N) = 1$.

The geometry of the critical points of the Green function on a flat torus $E_{\tau}$, as $\tau$ varies in the moduli $\mathcal{M}_1$, plays a fundamental role in our analysis of the Painlevé VI equation. In particular, the conjectures raised in “Elliptic functions, Green functions and the mean field equations on tori” [C.-S. Lin and C.-L. Wang, Annals of Math. 172 (2010), no. 2, 911–954] on the shape of the domain $\Omega_5 \subset \mathcal{M}_1$, which consists of tori whose Green function has extra pair of critical points, are completely solved here.


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Zhijie Chen. Ting-Jung Kuo. Chang-Shou Lin. Chin-Lung Wang. "Green function, Painlevé VI equation, and Eisenstein series of weight one." J. Differential Geom. 108 (2) 185 - 241, February 2018.


Received: 30 September 2015; Published: February 2018
First available in Project Euclid: 13 February 2018

zbMATH: 06846977
MathSciNet: MR3763067
Digital Object Identifier: 10.4310/jdg/1518490817

Rights: Copyright © 2018 Lehigh University

Vol.108 • No. 2 • February 2018
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