The full text of this article is unavailable through your IP address: 172.17.0.1
Contents Online
Homology, Homotopy and Applications
Volume 26 (2024)
Number 1
The stable embedding tower and operadic structures on configuration spaces
Pages: 229 – 258
DOI: https://dx.doi.org/10.4310/HHA.2024.v26.n1.a15
Author
Abstract
$\def\EmbMN{\operatorname{Emb}(M,N)}\def\EM{E_M}\def\En{E_n}$ Given smooth manifolds $M$ and $N$, manifold calculus studies the space of embeddings $\EmbMN$ via the “embedding tower”, which is constructed using the homotopy theory of presheaves on $M$. The same theory allows us to study the stable homotopy type of $\EmbMN$ via the “stable embedding tower”. By analyzing cubes of framed configuration spaces, we prove that the layers of the stable embedding tower are tangential homotopy invariants of $N$.
If $M$ is framed, the moduli space of disks $\EM$ is intimately connected to both the stable and unstable embedding towers through the $\En$ operad. The action of $\En$ on $\EM$ induces an action of the Poisson operad poisn on the homology of configuration spaces $H_\ast (F(M,-))$. In order to study this action, we introduce the notion of Poincaré–Koszul operads and modules and show that $\En$ and $\EM$ are examples. As an application, we compute the induced action of the Lie operad on $H_\ast (F(M,-))$ and show it is a homotopy invariant of $M^+$.
Keywords
configuration space, Koszul duality, functor calculus
2010 Mathematics Subject Classification
55M05
Received 25 November 2022
Received revised 28 May 2023
Accepted 28 May 2023
Published 1 May 2024