Stability of a simple scheme for the approximation of elastic knots and self-avoiding inextensible curves

Stability of a simple scheme for the approximation of elastic knots and self-avoiding inextensible curves

We discuss a semi-implicit numerical scheme that allows for minimizing the bending energy of curves within certain isotopy classes. To this end we consider a weighted sum of the bending energy and the tangent-point functional. Based on estimates for the second derivative of the latter and a uniform...

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Veröffentlicht in:Mathematics of computation 2021-07, Vol.90 (330), p.1499-1526
Hauptverfasser: Bartels, Soren, Reiter, Philipp
Format: Artikel
Sprache:eng
Schlagworte:
Mathematics
Mathematics, Applied
Physical Sciences
Science & Technology
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Zusammenfassung:We discuss a semi-implicit numerical scheme that allows for minimizing the bending energy of curves within certain isotopy classes. To this end we consider a weighted sum of the bending energy and the tangent-point functional. Based on estimates for the second derivative of the latter and a uniform bi-Lipschitz radius, we prove a stability result implying energy decay during the evolution as well as maintenance of arclength parametrization. Finally we present some numerical experiments exploring the energy landscape, targeted to the question how to obtain global minimizers of the bending energy in knot classes, so-called elastic knots.
ISSN:0025-5718
1088-6842
DOI:10.1090/mcom/3633