Contents

Idea

An ordinary tangle is a 1-dimensional manifold with boundary that is embedded into the 3-cube, such that the boundary is embedded into chosen chosen pair opposing sides of the cube.

Thus, one may think of a tangle as (a knot if it is connected or generally as) a link that was cut at several points and the resulting strands pulled apart at their endpoints to opposite sides of the cube. Conversely, a link (knot) is equivalently a (connected) tangle with empty boundary.

Similarly, a tangle that progresses monotonically from its source to its target is equivalently a braid.

The notion of tangles generalizes to that of $m$-tangles in dimension $n$, which are $m$-manifolds with corners embedded into the $n$-cube such that their corners are appropriately embedded in the cube’s boundary. In this sense ordinary tangles are the 1-tangles in 3-space.

Properties

Category of tangles

Tangles naturally constitute the morphisms of a category:

The objects are finite subsets of $\mathbf{R}^2$. Morphisms $A\to B$ are embeddings of unions of finitely many closed intervals and circles into $[0,1]\times\mathbf{R}^2$ such that the restriction of the embedding to the endpoints yields a bijection to $A\sqcup B$. Morphisms are composed by gluing two copies of $[0,1]$ together and rescaling.

As usual, this suffers from being associative only up to an ambient isotopy. Thus, one can either take ambient isotopy classes of such embeddings, obtaining a 1-category of tangles, or instead turn tangles into an (∞,1)-category, in which case morphisms $A\to B$ will encode the whole homotopy type of the space of embeddings described above.

Category of framed tangles

Analogously there is a notion of framed tangles which are to ordinary tangles as framed links are to ordinary links.

(Shum 1994, Yetter 2001 Thm. 9.1)

Higher-dimensional variants

Higher-dimensional tangles, i.e. $m$-manifolds with corners embedded in the $n$-cube, were considered for instance in Baez and Dolan 95. A “tame” definition of tangles that admit finite stratifications by their critical point types was given in Dorn and Douglas 22.

Related concepts

• generalized tangle hypothesis

• manifold diagrams

References

• Mei Chee Shum, Tortile tensor categories, Journal of Pure and Applied Algebra 93 1 (1994) 57-110 [10.1016/0022-4049(92)00039-T]

• John Baez, James Dolan: Higher-dimensional Algebra and Topological Quantum Field Theory (1995) [arXiv]

• David N. Yetter: Functorial Knot Theory – Categories of Tangles, Coherence, Categorical Deformations, and Topological Invariants, Series on Knots and Everything 26, World Scientific (2001) [doi:10.1142/4542]

• Christoph Dorn, Christopher Douglas,: Manifold diagrams and tame tangles (2022) [arXiv:2208.13758]

See also:

• Wikipedia: Tangle (mathematics)

Exposition

• Tangled Web: The category of tangles (2009)