Invertible knot

In mathematics, especially in the area of topology known as knot theory, an invertible knot is a knot that can be continuously deformed to itself, but with its orientation reversed. A non-invertible knot is any knot which does not have this property. The invertibility of a knot is a knot invariant. An invertible link is the link equivalent of an invertible knot.

There are only five knot symmetry types, indicated by chirality and invertibility: fully chiral, reversible, positively amphichiral noninvertible, negatively amphichiral noninvertible, and fully amphichiral invertible.^[1]

Background

Number of invertible and non-invertible knots for each crossing number
Number of crossings	3	4	5	6	7	8	9	10	11	12	13	14	15	16	OEIS sequence
Non-invertible knots	0	0	0	0	0	1	2	33	187	1144	6919	38118	226581	1309875	A052402
Invertible knots	1	1	2	3	7	20	47	132	365	1032	3069	8854	26712	78830	A052403

It has long been known that most of the simple knots, such as the trefoil knot and the figure-eight knot are invertible. In 1962 Ralph Fox conjectured that some knots were non-invertible, but it was not proved that non-invertible knots exist until Hale Trotter discovered an infinite family of pretzel knots that were non-invertible in 1963.^[2] It is now known almost all knots are non-invertible.^[3]

Invertible knots

The simplest non-trivial invertible knot, the trefoil knot. Rotating the knot 180 degrees in 3-space about an axis in the plane of the diagram produces the same knot diagram, but with the arrow's direction reversed.

All knots with crossing number of 7 or less are known to be invertible. No general method is known that can distinguish if a given knot is invertible.^[4] The problem can be translated into algebraic terms,^[5] but unfortunately there is no known algorithm to solve this algebraic problem.

If a knot is invertible and amphichiral, it is fully amphichiral. The simplest knot with this property is the figure eight knot. A chiral knot that is invertible is classified as a reversible knot.^[6]

Strongly invertible knots

A more abstract way to define an invertible knot is to say there is an orientation-preserving homeomorphism of the 3-sphere which takes the knot to itself but reverses the orientation along the knot. By imposing the stronger condition that the homeomorphism also be an involution, i.e. have period 2 in the homeomorphism group of the 3-sphere, we arrive at the definition of a strongly invertible knot. All knots with tunnel number one, such as the trefoil knot and figure-eight knot, are strongly invertible.^[7]

Non-invertible knots

The simplest example of a non-invertible knot is the knot 8₁₇ (Alexander-Briggs notation) or .2.2 (Conway notation). The pretzel knot 7, 5, 3 is non-invertible, as are all pretzel knots of the form (2p + 1), (2q + 1), (2r + 1), where p, q, and r are distinct integers, which is the infinite family proven to be non-invertible by Trotter.^[2]

References

^ Hoste, Jim; Thistlethwaite, Morwen; Weeks, Jeff (1998), "The first 1,701,936 knots" (PDF), The Mathematical Intelligencer, 20 (4): 33–48, doi:10.1007/BF03025227, MR 1646740, S2CID 18027155, archived from the original (PDF) on 2013-12-15.
^ ^a ^b Trotter, H. F. (1963), "Non-invertible knots exist", Topology, 2 (4): 275–280, doi:10.1016/0040-9383(63)90011-9, MR 0158395.
^ Murasugi, Kunio (2007), Knot Theory and Its Applications, Springer, p. 45, ISBN 9780817647186.
^ Weisstein, Eric W. "Invertible Knot". MathWorld. Accessed: May 5, 2013.
^ Kuperberg, Greg (1996), "Detecting knot invertibility", Journal of Knot Theory and Its Ramifications, 5 (2): 173–181, arXiv:q-alg/9712048, doi:10.1142/S021821659600014X, MR 1395778, S2CID 15295630.
^ Clark, W. Edwin; Elhamdadi, Mohamed; Saito, Masahico; Yeatman, Timothy (2013), "Quandle colorings of knots and applications", Journal of Knot Theory and Its Ramifications, 23 (6), arXiv:1312.3307, Bibcode:2013arXiv1312.3307C, doi:10.1142/S0218216514500357, PMC 4610146, PMID 26491208.
^ Morimoto, Kanji (1995), "There are knots whose tunnel numbers go down under connected sum", Proceedings of the American Mathematical Society, 123 (11): 3527–3532, doi:10.1090/S0002-9939-1995-1317043-4, JSTOR 2161103, MR 1317043. See in particular Lemma 5.

External links

Jablan, Slavik & Sazdanovic, Radmila. Basic graph theory: Non-invertible knot and links Archived 2011-01-18 at the Wayback Machine, LinKnot.
Explanation with a video, Nrich.Maths.org.

[htw-1] Hoste, Jim; Thistlethwaite, Morwen; Weeks, Jeff (1998), "The first 1,701,936 knots" (PDF), The Mathematical Intelligencer, 20 (4): 33–48, doi:10.1007/BF03025227, MR 1646740, S2CID 18027155, archived from the original (PDF) on 2013-12-15.

[trotter-2] Trotter, H. F. (1963), "Non-invertible knots exist", Topology, 2 (4): 275–280, doi:10.1016/0040-9383(63)90011-9, MR 0158395.

[3] Murasugi, Kunio (2007), Knot Theory and Its Applications, Springer, p. 45, ISBN 9780817647186.

[mathworld-4] Weisstein, Eric W. "Invertible Knot". MathWorld. Accessed: May 5, 2013.

[5] Kuperberg, Greg (1996), "Detecting knot invertibility", Journal of Knot Theory and Its Ramifications, 5 (2): 173–181, arXiv:q-alg/9712048, doi:10.1142/S021821659600014X, MR 1395778, S2CID 15295630.

[6] Clark, W. Edwin; Elhamdadi, Mohamed; Saito, Masahico; Yeatman, Timothy (2013), "Quandle colorings of knots and applications", Journal of Knot Theory and Its Ramifications, 23 (6), arXiv:1312.3307, Bibcode:2013arXiv1312.3307C, doi:10.1142/S0218216514500357, PMC 4610146, PMID 26491208.

[7] Morimoto, Kanji (1995), "There are knots whose tunnel numbers go down under connected sum", Proceedings of the American Mathematical Society, 123 (11): 3527–3532, doi:10.1090/S0002-9939-1995-1317043-4, JSTOR 2161103, MR 1317043. See in particular Lemma 5.

[1]

[2]

[3]

[4]

[5]

[6]

[7]

v t Knot theory (knots and links)
Hyperbolic	Figure-eight (4₁) Three-twist (5₂) Stevedore (6₁) 6₂ 6₃ Endless (7₄) Carrick mat (8₁₈) Perko pair (10₁₆₁) Conway knot (11n34) Kinoshita–Terasaka knot (11n42) (−2,3,7) pretzel (12n242) Whitehead (5² ₁) Borromean rings (6³ ₂) L10a140
Satellite	Composite knots Granny Square Knot sum
Torus	Unknot (0₁) Trefoil (3₁) Cinquefoil (5₁) Septafoil (7₁) Unlink (0² ₁) Hopf (2² ₁) Solomon's (4² ₁)
Invariants	Alternating Arf invariant Bridge no. 2-bridge Brunnian Chirality Invertible Crosscap no. Crossing no. Finite type invariant Hyperbolic volume Khovanov homology Genus Knot group Link group Linking no. Polynomial Alexander Bracket HOMFLY Jones Kauffman Pretzel Prime list Stick no. Tricolorability Unknotting no. and problem
Notation and operations	Alexander–Briggs notation Conway notation Dowker–Thistlethwaite notation Flype Mutation Reidemeister move Skein relation Tabulation
Other	Alexander's theorem Berge Braid theory Conway sphere Complement Double torus Fibered Knot List of knots and links Ribbon Slice Sum Tait conjectures Twist Wild Writhe Surgery theory
Category Commons