Presentations of exotic 4-manifolds

Question

TLDR I want to see more examples of exotic $4$-manifold (hopefully connected, simply connected, oriented, and closed).

Are there known presentations of $4$-manifolds $M$ with exotic structures, whether in terms of Kirby linky data, PL-triangulations, or any other constructions? There are a few given in Akbulut's book [1], but they are $4$-manifolds with boundaries.

Mainly, I am looking for those $M$ that are oriented, connected, simply-connected and closed. But really, any pointers to any example with exotic smooth structures are appreciated.

[1] 4-Manifolds - Selman Akbulut

Answer 1

I guess that this is as explicit and low-tech as it gets: if $X$ is a K3 surface (i.e. a non-singular quartic hypersurface in $\mathbb{CP}^3$, with the complex orientation), then $X \# \overline{\mathbb{CP}}{}^2$ and $3\mathbb{CP}^2 \# 20\overline{\mathbb{CP}}{}^2$ are an exotic pair.

To see that they are homeomorphic, we use that odd indefinite forms are diagonalisable and then Freedman's theorem. (Ok, and that complex projective hypersurfaces are simply-connected, by Lefschetz's theorem.) To see that they are not diffeomorphic, we use that Kähler surfaces have (some) non-zero Seiberg–Witten invariant, while anything written as a connected sum of indefinite pieces doesn't. (In particular, the same argument applies to any hypersurface of $\mathbb{CP}^3$ of degree at least 4; in this case, blowing up/connected summing with $\overline{\mathbb{CP}}{}^2$ is only needed in even degrees.)

This is just the tip of the iceberg of the tip of the iceberg that Anubhav mentioned in his comment.

EDIT (06/03/2024): Levine, Lidman, and Piccirillo's paper [LLP] fits the bill. They give explicit constructions of exotic 4-manifolds using Kirby diagrams (and explicitly computing some Heegaard Floer diffeomorphism invariants).

While I'm at it with the edits... About the example I mentioned above: one can give explicit handle diagrams for the K3 and for its exotic companion (see Gompf and Stipsicz's book), so those examples where explicit too. There's an important difference with [LLP]: the original computation of the SW invariants of the K3 and of $3\mathbb{CP}^2 \# 20\overline{\mathbb{CP}}{}^2$ was done using properties of SW (an something similar with HF), while in [LLP] they compute the invariants from the handle decomposition.

Answer 2

If you're still interested in this, I've been working on triangulations of exotic 4-manifolds for some time now. I've implemented an algorithm to produce triangulations of 4-manifolds from Kirby diagrams, and using this I've obtained triangulations of some bounded exotic pairs. See https://arxiv.org/abs/2402.15087 for the details and data --- again note that the exotic pairs I've constructed triangulations of are those you may already be aware of and have boundary (in the linked paper, I cone all boundaries to a point, but in forthcoming work I look at ones with 'real' boundary). The long term goal/big picture idea here, among others, is that by doing all this combinatorially/computationally, then eventually we might be able to generate (triangulations of) new exotica at our pleasure.