# Solutions of PDE under changing topology

Let suppose we have a PDE on a manifold. I'm interested in the following question. How does the space of solutions of this PDE change when the topology of the manifold changes? For example in 2D we consider how the kernel of some partial operator changes under handle attachments. Do people study this type of problems?

Thank you!

• After changing the topology, what is the new PDE you consider? How do you construct it from the original one? – user2520938 May 12 at 18:24

Yes, this has been studied intensively for quite a while. In particular, people who work in gauge theory (as applied to 4-manifolds) have studied the effect of surgeries on the solutions to the ASD Yang-Mills equations and Seiberg-Witten equations using essentially analytic techniques. An early result of this kind by Donaldson shows that taking connected sum with $${\mathbb C}P^2$$ (with its standard complex orientation) can change the number of solutions (counted with signs) from something non-zero to $$0$$. In other words, the moduli space (as an oriented $$0$$-manifold) can change under a simple topological operation on the manifold.
There is a vast literature on the subject, where one can detect much more subtle changes in the smooth topology of $$4$$-manifolds. You might look up the Fintushel-Stern knot surgery formula. There are also many results in other contexts such as moduli spaces of holomorphic curves.