Constructs infinite-time singularities for Lagrangian mean curvature flow in Gibbons-Hawking spaces where H converges uniformly to 0 but log max |A| ~ sqrt(t) as t to infinity.
Infinite-Time Singularities of the Lagrangian Mean Curvature Flow
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abstract
In this paper, we construct solutions of Lagrangian mean curvature flow which exist and are embedded for all time, but form an infinite-time singularity and converge to an immersed special Lagrangian as $t\to\infty$. In particular, the flow decomposes the initial data into a union of special Lagrangians intersecting at one point. This result shows that infinite-time singularities can form in the Thomas--Yau `semi-stable' situation. A precise polynomial blow-up rate of the second fundamental form is also shown. The infinite-time singularity formation is obtained by a perturbation of an approximate family $N^{\varepsilon(t)}$ constructed by gluing in special Lagrangian `Lawlor necks' of size $\varepsilon(t)$, where the dynamics of the neck size $\varepsilon(t)$ are driven by the obstruction for the existence of nearby special Lagrangians to $N^{\varepsilon(t)}$. This is inspired by the work of Brendle and Kapouleas regarding ancient solutions of the Ricci flow.
fields
math.DG 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
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Infinite-Time Singularities with Vanishing Mean Curvature for Lagrangian Mean Curvature Flow in Gibbons--Hawking Spaces
Constructs infinite-time singularities for Lagrangian mean curvature flow in Gibbons-Hawking spaces where H converges uniformly to 0 but log max |A| ~ sqrt(t) as t to infinity.