New results on the groundstate energy of tight, magnetic knots are presented. Magnetic knots are defined as tubular embeddings of the magnetic field in an ideal, perfectly conducting, incompressible fluid. An orthogonal, curvilinear coordinate system is introduced and the magnetic energy is determined by the poloidal and toroidal components of the magnetic field. Standard minimization of the magnetic energy is carried out under the usual assumptions of volume- and flux-preserving flow, with the additional constraints that the tube cross section remains circular and that the knot length (ropelength) is independent from internal field twist (framing). Under these constraints the minimum energy is determined analytically by a new, exact expression, function of ropelength and framing. Groundstate energy levels of tight knots are determined from ropelength data obtained by the SONO tightening algorithm. Results for torus knots are compared with previous work, and the groundstate energy spectrum of the first prime knots — up to 10 crossings — is presented and analysed in detail. These results demonstrate that ropelength and framing determine the spectrum of magnetic knots in tight configuration

Maggioni, F., Ricca, R. (2009). On the groundstate energy of tight knots. PROCEEDINGS OF THE ROYAL SOCIETY OF LONDON. SERIES A, 465, 2761-2783 [10.1098/rspa.2008.0536].

On the groundstate energy of tight knots

RICCA, RENZO
2009

Abstract

New results on the groundstate energy of tight, magnetic knots are presented. Magnetic knots are defined as tubular embeddings of the magnetic field in an ideal, perfectly conducting, incompressible fluid. An orthogonal, curvilinear coordinate system is introduced and the magnetic energy is determined by the poloidal and toroidal components of the magnetic field. Standard minimization of the magnetic energy is carried out under the usual assumptions of volume- and flux-preserving flow, with the additional constraints that the tube cross section remains circular and that the knot length (ropelength) is independent from internal field twist (framing). Under these constraints the minimum energy is determined analytically by a new, exact expression, function of ropelength and framing. Groundstate energy levels of tight knots are determined from ropelength data obtained by the SONO tightening algorithm. Results for torus knots are compared with previous work, and the groundstate energy spectrum of the first prime knots — up to 10 crossings — is presented and analysed in detail. These results demonstrate that ropelength and framing determine the spectrum of magnetic knots in tight configuration
Articolo in rivista - Articolo scientifico
magnetic knots, ropelength, magnetic relaxation, ideal shapes, energy minimizer
English
2009
465
2761
2783
none
Maggioni, F., Ricca, R. (2009). On the groundstate energy of tight knots. PROCEEDINGS OF THE ROYAL SOCIETY OF LONDON. SERIES A, 465, 2761-2783 [10.1098/rspa.2008.0536].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/10281/9636
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