nLab simplicial topological group

Contents

Context

Topology

Homotopy theory

Definition
Properties
Related concepts
References

Definition

A simplicial topological group is a simplicial object in the category of topological groups.

For various applications the ambient category Top of topological spaces is taken specifically to be

the category of compactly generated weakly Hausdorff spaces, or
or the category of k-spaces.

We take Top to be the category of k-spaces in the following.

Definition

A simplicial topological group $G$ is called well-pointed if for $*$ the trivial simplicial topological group and $i : * \to G$ the unique homomorphism, all components $i_n : * \to G_n$ are closed cofibrations.

For $B \in Top$ a fixed base object, it is often desirable to work in “ $B$ -parameterized families”, hence in the over-category $Top/B$ (see MaySigurdson). There is the relative Strøm model structure on $Top/B$ .

Definition

A simplicial group in $G$ in $Top/B$ is called well-sectioned if for $B$ the trivial simplicial topological group over $B$ and $i : B \to G$ the unique homomorphism, all components $i_n : B \to G_n$ are $\bar f$ -cofibrations.

Properties

Recall for a discrete simplicial group $G$ the simplicial classifying space coprojection $W G \to \overline{W} G$ , being a Kan complex presentation of the universal principal infinity-bundle $\mathbf{E}G \to \mathbf{B}G$ from simplicial group. These constructions for discrete simplicial groups have immediate analogs for simplicial topological groups.

Definition

Let $G$ be a simplicial topological group. Write $\bar W G \in Top^{\Delta^{op}}$ for the simplicial topological space whose topological space of $n$ -simplices is the product

\bar W G_n := G_{n-1} \times G_{n-2} \cdots \times G_{0}

in Top, equipped with the evident face and degeneracy maps (see at simplicial classifying space).

Definition

We say a morphism $f : X \to Y$ of simplicial topological spaces is a global Kan fibration if for all $n \in \mathbb{N}$ and $0 \leq k \leq n$ the canonical morphism

X_n \to Y_n \times_{sTop(\Lambda^n_k, Y)} sTop(\Lambda^n_k, X)

in Top has a section, where

$\Lambda^n_k \in$ sSet $\hookrightarrow Top^{\Delta^{op}}$ is the $k$ th $n$ -horn regarded as a discrete simplicial topological space:
$sTop(-,-) : sTop^{op} \times sTop \to Top$ is the Top-hom object.

We say a simplicial topological space $X_\bullet \in Top^{\Delta^{op}}$ is (global) Kan simplicial space if the unique morphism $X_\bullet \to *$ is a global Kan fibration, hence if for all $n \in \mathbb{N}$ and all $0 \leq i \leq n$ the canonical continuous function

X_n \to sTop(\Lambda^n_k, X)

into the topological space of $k$ th $n$ -horns admits a section.

This global notion of Kan simplicial spaces is considered for instance in (Brown & Szczarba 1989) and (May).

Proposition

Let $G$ be a simplicial topological group. Then

$G$ is a globally Kan simplicial topological space;
$\bar W G$ is a globally Kan simplicial topological space;
$W G \to \bar W G$ is a global Kan fibration.

Proof

The first statement appears as (Brown & Szczarba 1989, theorem 3.8), the second is noted in (Roberts & Stevenson 2012), the third as (Brown & Szczarba 1989, lemma 6.7).

Proposition

If $G$ is a well-pointed simplicial topological group (Def. ), then

its underlying simplicial topological space is good;
$\overline{W} G$ is a proper simplicial topological space;
the geometric realization $|G|$ is well-pointed.

(Roberts & Stevenson 2012, Prop. 3, for the last item see also Baez & Stevenson 2008, Lem. 1)

Related concepts

References

Basic discussion of simplicial topological groups:

Edgar H. Brown, R. H. Szczarba?, Continuous cohomology and real homotopy type , Trans. Amer. Math. Soc. 311 (1989), no. 1, 57 (doi:10.1090/S0002-9947-1989-0929667-6, pdf)
Peter May, Geometry of iterated loop spaces , SLNM 271, Springer-Verlag, 1972 (pdf)

Discussion of their geometric realization and principal $\infty$ -bundles:

John Baez, Danny Stevenson, The Classifying Space of a Topological 2-Group, In: Baas N., Friedlander E., Jahren B., Østvær P. (eds.) Algebraic Topology_. Abel Symposia, vol 4. Springer 2009 (arXiv:0801.3843, doi:10.1007/978-3-642-01200-6_1)
David Roberts, Danny Stevenson, Simplicial principal bundles in parametrized spaces, New York Journal of Mathematics Volume 22 (2016) 405-440 (arXiv:1203.2460, nyjm:22-19)

Discussion of homotopy theory over a base $B$ is in

Peter May, Johann Sigurdsson, Parametrized Homotopy Theory (web)

Last revised on September 23, 2021 at 08:42:18. See the history of this page for a list of all contributions to it.