矩形环面上多重格林函数临界点的精确个数与非退化性

IF 1.3 1区 数学 Q1 MATHEMATICS
Zhijie Chen, Changshou Lin
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引用次数: 7

摘要

设$E_{\tau}:=\mathbb{C}/(\mathbb{Z}+\mathbb}Z}\tau)$为平环面,$G(Z;\tau)$为$E_。考虑$(E_{\tau})上的多重格林函数$G_{n}$:\[G_n(z_1,\cdots,z_n;\tau):=\sum_{R}_{\gt 0}$,即$e_\tau$是矩形环面,$G_n$恰好具有模置换群$S_n$的$2n+1$临界点,并且所有临界点都是非退化的。更准确地说,Hessian满足$(-1)^n\det D^2 G_n(\boldsymbol{a};\tau)\lt 0$(resp.$\gt 0$)的情况下,恰好存在$n$(resp.$n+1$)临界点$\boldsymbol{a}$。这证实了[4]中的一个猜想。我们的证明是基于$G_n$和[4,19]中的经典Lame方程之间的联系,其中一个关键步骤是根据Lame方程的单调数据建立$G_{n}$临界点的Hessian精确公式。作为一个应用,我们证明了平均场方程\[\Delta_u+e^u=\rho\Delta_0\textrm{on}e_\tau\]对于$8\pi-\rho\gt 0$small恰好有$n$解,对于$\rho-8\pi-n\gt 0$small恰好有$n+1$解。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Exact number and non-degeneracy of critical points of multiple Green functions on rectangular tori
Let $E_{\tau}:= \mathbb{C}/(\mathbb{Z}+ \mathbb{Z} \tau)$ be a flat torus and $G(z; \tau)$ be the Green function on $E_{\tau}$. Consider the multiple Green function $G_{n}$ on$(E_{\tau})^{n}$: \[ G_n (z_1, \cdots ,z_n ; \tau) := \sum_{i \lt j} G(z_i - z_j ; \tau) - n \sum_{i=1}^n G(z_i ; \tau). \] We prove that for $ \tau \in i \mathbb{R}_{\gt 0}$, i.e. $E_\tau$ is a rectangular torus, $G_n$ has exactly $2n + 1$ critical points modulo the permutation group $S_n$ and all critical points are non-degenerate. More precisely, there are exactly $n$ (resp. $n+1$) critical points $ \boldsymbol{a}$’s with the Hessian satisfying $(-1)^n \det D^2 G_n (\boldsymbol{a} ; \tau) \lt 0$ (resp. $\gt 0$). This confirms a conjecture in [4]. Our proof is based on the connection between $G_n$ and the classical Lame equation from [4, 19], and one key step is to establish a precise formula of the Hessian of critical points of $G_{n}$ in terms of the monodromy data of the Lame equation. As an application, we show that the mean field equation \[ \Delta_u + e^u = \rho \delta_0 \textrm{ on } E_\tau \] has exactly $n$ solutions for $8 \pi n - \rho \gt 0$ small, and exactly $n+1$ solutions for $\rho - 8 \pi n \gt 0$ small.
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来源期刊
CiteScore
3.40
自引率
0.00%
发文量
24
审稿时长
>12 weeks
期刊介绍: Publishes the latest research in differential geometry and related areas of differential equations, mathematical physics, algebraic geometry, and geometric topology.
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