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Rigidity Theorems for Asymptotically Euclidean $Q$-singular Spaces

Differential Geometry 2026-02-06 v3 Mathematical Physics math.MP

Abstract

In this paper we prove some rigidity theorems associated to QQ-curvature analysis on asymptotically Euclidean (AE) manifolds, which are inspired by the analysis of conservation principles within fourth order gravitational theories. A central object in this analysis is a notion of fourth order energy, previously analysed by the authors, which is subject to a positive energy theorem. We show that this energy can be more geometrically rewritten in terms of a fourth order analogue to the Ricci tensor, which we denote by JgJ_g. This allows us to prove that Yamabe positive JJ-flat AE manifolds must be isometric to Euclidean space. As a by product, we prove that this JJ-tensor provides a geometric control for the optimal decay rates at infinity. This last result reinforces the analogy of JJ as a fourth order analogue to the Ricci tensor.

Keywords

Cite

@article{arxiv.2204.03607,
  title  = {Rigidity Theorems for Asymptotically Euclidean $Q$-singular Spaces},
  author = {Rodrigo Avalos and Paul Laurain and Nicolas Marque},
  journal= {arXiv preprint arXiv:2204.03607},
  year   = {2026}
}

Comments

26 pages, second version takes into account questions received on the dependance of the result on the end charts. Third version corrects typos highlighted during the review process. The paper has been accepted for publication in Advances in Mathematics

R2 v1 2026-06-24T10:41:31.454Z