English

Integral Arnol'd Conjecture

Symplectic Geometry 2022-09-23 v1

Abstract

We explain how to adapt the methods of Abouzaid-McLean-Smith to the setting of Hamiltonian Floer theory. We develop a language around equivariant ``k\langle k \rangle-manifolds'', which are a type of manifold-with-corners that suffices to capture the combinatorics of Floer-theoretic constructions. We describe some geometry which allows us to straightforwardly adapt Lashofs's stable equivariant smoothing theory and Bau-Xu's theory of FOP-perturbations to k\langle k \rangle-manifolds. This allows us to compatibly smooth global Kuranishi charts on all Hamiltonian Floer trajectories at once, in order to extract a Floer complex and prove the Arnol'd conjecture over the integers. We also make first steps towards a further development of the theory, outlining the analog of bifurcation analysis in this setting, which can give short independence proofs of the independence of Floer-theoretic invariants of all choices involved in their construction.

Keywords

Cite

@article{arxiv.2209.11165,
  title  = {Integral Arnol'd Conjecture},
  author = {Semon Rezchikov},
  journal= {arXiv preprint arXiv:2209.11165},
  year   = {2022}
}

Comments

56 pages

R2 v1 2026-06-28T01:54:59.191Z