Stability of isometric immersions of hypersurfaces

Itai Alpern; Raz Kupferman; Cy Maor

doi:10.1017/fms.2024.30

Stability of isometric immersions of hypersurfaces

Itai Alpern, Raz Kupferman, Cy Maor

Einstein Institute of Mathematics

The Hebrew University of Jerusalem

Research output: Contribution to journal › Article › peer-review

Abstract

We prove a stability result of isometric immersions of hypersurfaces in Riemannian manifolds, with respect to L^p-perturbations of their fundamental forms: For a manifold M^d endowed with a reference metric and a reference shape operator, we show that a sequence of immersions f_n : M^d → N^d+¹, whose pullback metrics and shape operators are arbitrary close in L^p to the reference ones, converge to an isometric immersion having the reference shape operator. This result is motivated by elasticity theory and generalizes a previous result [AKM22] to a general target manifold N, removing a constant curvature assumption. The method of proof differs from that in [AKM22]: it extends a Young measure approach that was used in codimension-0 stability results, together with an appropriate relaxation of the energy and a regularity result for immersions satisfying given fundamental forms. In addition, we prove a related quantitative (rather than asymptotic) stability result in the case of Euclidean target, similar to [CMM19] but with no a priori assumed bounds.

Original language	English
Article number	e43
Journal	Forum of Mathematics, Sigma
Volume	12
DOIs	https://doi.org/10.1017/fms.2024.30
State	Published - 2 Apr 2024

All Science Journal Classification (ASJC) codes

Analysis
Theoretical Computer Science
Algebra and Number Theory
Statistics and Probability
Mathematical Physics
Geometry and Topology
Discrete Mathematics and Combinatorics
Computational Mathematics

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title = "Stability of isometric immersions of hypersurfaces",

abstract = "We prove a stability result of isometric immersions of hypersurfaces in Riemannian manifolds, with respect to Lp-perturbations of their fundamental forms: For a manifold Md endowed with a reference metric and a reference shape operator, we show that a sequence of immersions fn : Md → Nd+1, whose pullback metrics and shape operators are arbitrary close in Lp to the reference ones, converge to an isometric immersion having the reference shape operator. This result is motivated by elasticity theory and generalizes a previous result [AKM22] to a general target manifold N, removing a constant curvature assumption. The method of proof differs from that in [AKM22]: it extends a Young measure approach that was used in codimension-0 stability results, together with an appropriate relaxation of the energy and a regularity result for immersions satisfying given fundamental forms. In addition, we prove a related quantitative (rather than asymptotic) stability result in the case of Euclidean target, similar to [CMM19] but with no a priori assumed bounds.",

author = "Itai Alpern and Raz Kupferman and Cy Maor",

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T1 - Stability of isometric immersions of hypersurfaces

AU - Alpern, Itai

AU - Kupferman, Raz

AU - Maor, Cy

PY - 2024/4/2

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N2 - We prove a stability result of isometric immersions of hypersurfaces in Riemannian manifolds, with respect to Lp-perturbations of their fundamental forms: For a manifold Md endowed with a reference metric and a reference shape operator, we show that a sequence of immersions fn : Md → Nd+1, whose pullback metrics and shape operators are arbitrary close in Lp to the reference ones, converge to an isometric immersion having the reference shape operator. This result is motivated by elasticity theory and generalizes a previous result [AKM22] to a general target manifold N, removing a constant curvature assumption. The method of proof differs from that in [AKM22]: it extends a Young measure approach that was used in codimension-0 stability results, together with an appropriate relaxation of the energy and a regularity result for immersions satisfying given fundamental forms. In addition, we prove a related quantitative (rather than asymptotic) stability result in the case of Euclidean target, similar to [CMM19] but with no a priori assumed bounds.

AB - We prove a stability result of isometric immersions of hypersurfaces in Riemannian manifolds, with respect to Lp-perturbations of their fundamental forms: For a manifold Md endowed with a reference metric and a reference shape operator, we show that a sequence of immersions fn : Md → Nd+1, whose pullback metrics and shape operators are arbitrary close in Lp to the reference ones, converge to an isometric immersion having the reference shape operator. This result is motivated by elasticity theory and generalizes a previous result [AKM22] to a general target manifold N, removing a constant curvature assumption. The method of proof differs from that in [AKM22]: it extends a Young measure approach that was used in codimension-0 stability results, together with an appropriate relaxation of the energy and a regularity result for immersions satisfying given fundamental forms. In addition, we prove a related quantitative (rather than asymptotic) stability result in the case of Euclidean target, similar to [CMM19] but with no a priori assumed bounds.

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U2 - 10.1017/fms.2024.30

DO - 10.1017/fms.2024.30

M3 - مقالة

SN - 2050-5094

VL - 12

JO - Forum of Mathematics, Sigma

JF - Forum of Mathematics, Sigma

M1 - e43

ER -

Stability of isometric immersions of hypersurfaces

Abstract

All Science Journal Classification (ASJC) codes

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