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| Main Authors: | , |
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| Format: | Preprint |
| Published: |
2025
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| Subjects: | |
| Online Access: | https://arxiv.org/abs/2512.00643 |
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Table of Contents:
- We consider a geodesic $γ$ of length $2L$ in an oriented Riemannian manifold $(\mathcal M, g)$ and a thin tube $Ω^*_h$ around $γ$ of radius $h$. We study an 'elastic' energy per unit volume $E_h(u)$ of maps $u$ from $Ω^*_h$ into another oriented Riemannian manifold $(\tilde {\mathcal M},\tilde g)$. The energy $E_h$ is based on the squared distance of the differentials $du$ from the set of orientation preserving linear maps between the corresponding tangent spaces. We prove a compactness result for sequences of maps $u_h$ for which $h^{-4} E_h(u_h)$ remains bounded and we study the $Γ$-Limit of $h^{-4} E_h(u_h)$ as $h \to 0$ with respect to a suitable notion of convergence for $u_h$ that involves certain blow-ups in the radial direction. This $Γ$-convergence result ge\-ne\-ra\-lizes work by Mora and Müller on the limiting energy of thin rods in the Euclidean setting. We also obtain an expression for the minimum of the limiting energy as a specific quadratic functional in the difference of the pullbacks of the curvature tensors of $\mathcal M$ and $\tilde{\mathcal M}$ along the curves $γ$ and $u \circ γ$, respectively, thus answering a question by Maor and Shachar, J. Elasticity 134 (2019), pp. 149--173.