Non-degeneracy and quantitative stability of half-harmonic maps from R to S

We consider half-harmonic maps from R (or S) to S. We prove that all (finite energy) half-harmonic maps are non-degenerate. In other words, they are integrable critical points of the energy functional. A full description of the kernel of the linearized operator around each half-harmonic map is given...

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Bibliographic Details
Published in:Advances in mathematics (New York. 1965) 2023-05, Vol.420, p.108979, Article 108979
Main Authors: Deng, Bin, Sun, Liming, Wei, Jun-cheng
Format: Article
Language:English
Subjects:
Blaschke product
Fractional derivative
Half-harmonic map
Non-degeneracy
Stability
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Summary:We consider half-harmonic maps from R (or S) to S. We prove that all (finite energy) half-harmonic maps are non-degenerate. In other words, they are integrable critical points of the energy functional. A full description of the kernel of the linearized operator around each half-harmonic map is given. The second part of this paper devotes to studying the quantitative stability of half-harmonic maps. When its degree is ±1, we prove that the deviation of any map u:R→S from Möbius transformations can be controlled uniformly by ‖u‖H˙1/2(R)2−|degu|. This result resembles the quantitative rigidity estimate of degree ±1 harmonic maps R2→S2 which was proved recently. Furthermore, we address the quantitative stability for half-harmonic maps with higher degree. We prove that if u is already near to a Blaschke product, then the deviation of u to Blaschke products can be controlled by ‖u‖H˙1/2(R)2−|degu|. Additionally, a striking example shows that such a quantitative estimate can not be true uniformly for all u of degree 2. One can prove that similar things happen for harmonic maps R2→S2 (see our paper [17]).
ISSN:0001-8708
1090-2082
DOI:10.1016/j.aim.2023.108979