论O 'Hara结能I:临界结的规律性

IF 1.3 1区数学 Q1 MATHEMATICS Journal of Differential Geometry Pub Date : 2019-05-15 DOI:10.4310/jdg/1664378616

S. Blatt, P. Reiter, A. Schikorra

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引用次数: 8

摘要

我们发展了J. O'hara(1991)定义的尺度不变结能量的极限结的正则性理论。这个类包含了一个特殊的莫比乌斯能量。对于莫比乌斯能量，由于Freedman, He和Wang的著名工作，我们有一个比较好的理解。他们的方法关键是基于莫比乌斯变换下莫比乌斯能量的不变性，这对于所有其他的奥哈拉能量来说都是失败的。我们通过将尺度不变的O'hara结能量重新解释为作用于结参数化的单位切线上的非线性、非局部的L^p -能量来克服这一困难。这使我们能够与球的(分数)调和映射理论建立联系。利用这一联系，我们能够将临界维上退化分数阶调和映射的正则性理论应用于证明标度不变O'hara结能量的极小值和临界结的正则性。

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On O’Hara knot energies I: Regularity for critical knots

We develop a regularity theory for extremal knots of scale invariant knot energies defined by J. O'hara in 1991. This class contains as a special case the Mobius energy. For the Mobius energy, due to the celebrated work of Freedman, He, and Wang, we have a relatively good understanding. Their approch is crucially based on the invariance of the Mobius energy under Mobius transforms, which fails for all the other O'hara energies. We overcome this difficulty by re-interpreting the scale invariant O'hara knot energies as a nonlinear, nonlocal $L^p$-energy acting on the unit tangent of the knot parametrization. This allows us to draw a connection to the theory of (fractional) harmonic maps into spheres. Using this connection we are able to adapt the regularity theory for degenerate fractional harmonic maps in the critical dimension to prove regularity for minimizers and critical knots of the scale-invariant O'hara knot energies.

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来源期刊

Journal of Differential Geometry 数学-数学

CiteScore

3.40

自引率

0.00%

发文量

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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