关于拉格朗日算子的最小辛面积

Pub Date : 2020-12-05 DOI:10.4310/jsg.2022.v20.n6.a5

Zhengyi Zhou

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引用次数: 3

摘要

证明了拉格朗日子流形的极小辛面积在辛非球域上是普遍有界的。如果精确定义域允许$k$ -半膨胀，则对于$K(\pi,1)$ -拉格朗日，最小辛面积是普遍有界的。作为推论，我们证明Arnold弦猜想在以下四种情况下成立:(1)$Y$允许$SH^*(W)=0$的精确填充(对于某些环系数);(2) $Y$允许一个含有$SH^*(W)=0$和单连通Legendrians的辛非球面填充;(3) $Y$允许一个$k$ -半膨胀的精确填充，Legendrian是一个$K(\pi,1)$空间;(4) $Y$是具有$\pi_2(Q)\to H_2(Q)$非平凡的球束$S^*Q$, Legendrian具有平凡的球束$\pi_2$。此外，我们在情形(1)中得到了同斜轨道的存在性。我们还提供了更多的在所有维度$\ge 4$中$k$ -半膨胀的例子。

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On the minimal symplectic area of Lagrangians

We show that the minimal symplectic area of Lagrangian submanifolds are universally bounded in symplectically aspherical domains with vanishing symplectic cohomology. If an exact domain admits a $k$-semi-dilation, then the minimal symplectic area is universally bounded for $K(\pi,1)$-Lagrangians. As a corollary, we show that Arnold chord conjecture holds for the following four cases: (1) $Y$ admits an exact filling with $SH^*(W)=0$ (for some ring coefficient); (2) $Y$ admits a symplectically aspherical filling with $SH^*(W)=0$ and simply connected Legendrians; (3) $Y$ admits an exact filling with a $k$-semi-dilation and the Legendrian is a $K(\pi,1)$ space; (4) $Y$ is the cosphere bundle $S^*Q$ with $\pi_2(Q)\to H_2(Q)$ nontrivial and the Legendrian has trivial $\pi_2$. In addition, we obtain the existence of homoclinic orbits in case (1). We also provide many more examples with $k$-semi-dilations in all dimensions $\ge 4$.

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