Four-thirds power law for knots and links

Gregory Buck ()
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Gregory Buck: Saint Anselm College

Nature, 1998, vol. 392, issue 6673, 238-239

Abstract: Abstract Physical knot theory has recently been applied to polymer dynamics, and specifically to gel electrophoresis of DNA1,2. Knot energies3,4,5,6 measure the complexity of a knot conformation; minimum energy conformations are considered canonical or ‘ideal’ conformations. The rope length of a knot is one such measure of energy6, and an approximately linear relationship between rope length and the average crossing number for minimum rope-length conformations of simple knots has been reported7. Here I show that a linear relationship cannot hold in general: the rope length required to tie an N-crossing knot or link varies at least between ˜N3/4 and ˜N.

Date: 1998
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DOI: 10.1038/32561

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