Noboru Ito, Yusuke Takimura
Published 2020-05-21Version 1
A triple chord is a sub-diagram of a chord diagram that consists of a circle and finitely many chords connecting the preimages for every double point on a spherical curve, and it has exactly three chords giving the triple intersection. This paper describes some relationships between the number of triple chords and an equivalence relation called strong (1, 2) homotopy, which consists of the first and one kind of the second Reidemeister moves involving inverse self-tangency if the curve is given any orientation. We show that a prime knot projection is trivialized by strong (1, 2) homotopy, if it is a simple closed curve or a prime knot projection without 1- and 2-gons whose chord diagram does not contain any triple chords. We also discuss the relation between Shimizu's reductivity and triple chords.
Comments: 15 pages; 19 figures
Journal: Triple chords and strong (1, 2) homotopy, J. Math. Soc. Japan 68 (2016). 637--651
Loops in surfaces, chord diagrams, interlace graphs: operad factorisations and generating grammars
The tabulation of prime knot projections with their mirror images up to eight double points
Any nontrivial knot projection with no triple chords has a monogon or a bigon
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