David T. Gay, Robion Kirby
Published 2012-05-08, updated 2013-12-03Version 3
We show that any smooth, closed, oriented, connected 4--manifold can be trisected into three copies of $\natural^k (S^1 \times B^3)$, intersecting pairwise in 3--dimensional handlebodies, with triple intersection a closed 2--dimensional surface. Such a trisection is unique up to a natural stabilization operation. This is analogous to the existence, and uniqueness up to stabilization, of Heegaard splittings of 3--manifolds. A trisection of a 4--manifold $X$ arises from a Morse 2--function $G:X \to B^2$ and the obvious trisection of $B^2$, in much the same way that a Heegaard splitting of a 3--manifold $Y$ arises from a Morse function $g : Y \to B^1$ and the obvious bisection of $B^1$.
Comments: 38 pages, 29 figures; minor improvements to exposition, more examples, and more discussion
Stabilization, amalgamation, and curves of intersection of Heegaard splittings
Cusp cobordism group of Morse functions
Heegaard Splittings with Boundary and Almost Normal Surfaces
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