A CHARACTERIZATION OF CONWAY-COXETER FRIEZES OF ZIGZAG TYPE BY RATIONAL LINKS

[1] J.H. Conway: An enumeration of knots and links, and some of their algebraic properties; in Computational problems in abstract algebra 1967, Pergamon Press, Oxford, 1970, 329–335.

[2] J.H. Conway and H.S.M. Coxeter: Triangulated polygons and frieze patterns, Math. Gaz. 57 (1973), 87–94.

[3] J.H. Conway and H.S.M. Coxeter: Triangulated polygons and frieze patterns II, Math. Gaz. 57 (1973), 175–183.

[4] H.S.M. Coxeter: Frieze patterns, Acta Arith. 18 (1971), 297–310.

[5] P. Cromwell: Knots and links, Cambridge University Press, Cambridge, 2004.

[6] A. Hatcher and U. Ortel: Boundary slopes for Montesinos knots, Topology 28 (1989), 453–480.

[7] L.H. Kauffman: State models and the Jones polynomial, Topology 26 (1987), 395–407.

[8] T. Kogiso and M. Wakui: A bridge between Conway-Coxeter Friezes and rational tangles through the Kauffman bracket polynomials, J. Knot Theory Ramifications 28 (2019), 1950083, 40pp.

[9] K. Lee and R. Schiffler: Cluster algebras and Jones polynomials, Selecta Math. (N.S.) 25 (2019), Paper No.58, 41pp.

[10] S. Morier-Genoud: Coxeter’s frieze patterns at the crossroads of algebra, geometry and combinatorics, Bull. London Math. Soc. 47 (2015), 895–938.

[11] S. Morier-Genoud and V. Ovsienko: q-deformed rationals and q-continued fractions, Forum Math. Sigma 8 (2020), e13, 55pp.

[12] K. Murasugi: Knot theory and its applications, translated from the 1993 Japanese original by Bohdan Kurpita, Birkhauser, Boston, MA, 1996. ¨

[13] W. Nagai and Y. Terashima: Cluster variables, ancestral triangles and Alexander polynomials, Adv. Math. 363 (2020), 106965, 37pp.

[14] H. Schubert: Knoten mit zwei Br¨ucken, Math. Zeit. 65 (1956), 133–170.

[15] S. Yamada: Jones polynomial of two-bridge knots (Ni-hashi musubime no Jones takoushiki), in Japanese, in Proceedings of “Musubime no shomondai to saikin no seika”, 1996, 92–96.