nLab Yoneda lemma for higher categories

Redirected from "Yoneda Lemma for higher categories".

Contents

Context

Yoneda lemma

Higher category theory

Idea
Yoneda embedding
Properties

Yoneda lemma
Preservation of limits

Related concepts

Idea

One expects the Yoneda lemma to generalize to essentially every flavor of higher category theory. Various special cases have been (defined and) proven, such as the:

Yoneda embedding

Definition

For $C$ an (∞,n)-category and $PSh(C)\coloneqq Func(C^\op, (\infty,(n-1)) Cat)$ its (∞,n)-category of (∞,n)-presheaves?, the $(\infty,n)$ -Yoneda embedding is the (∞,n)-functor

y : C \to PSh(C)

given by $y(X) : U \mapsto C(U,X)$ .

Properties

Yoneda lemma

Proposition

$(\infty,n)$ -Yoneda embedding

Let $C$ be an (∞,n)-category and $PSh(C)$ be the corresponding (∞,n)-category of (∞,n)-presheaves?. Then the canonical (∞,n)-functor

Y : C \to PSh(C)

is a full and faithful (∞,n)-functor?.

Proposition

$(\infty,n)$ -Yoneda theorem

For $C$ a small $(\infty,n)$ -category and $F : C^{op} \to (\infty,(n-1)) Cat$ an $(\infty,n)$ -functor, the composite

C^{op} \to PSh_{(\infty,1)}(C)^{op} \stackrel{Hom(-,F)}{\to} (\infty,(n-1)) Cat

is equivalent to $F$ .

Preservation of limits

Proposition

The $(\infty,n)$ -Yoneda embedding $y : C \to PSh(C)$ preserves all (∞,n)-limit?s that exist in $C$ .

Related concepts

higher topos theory

Last revised on April 15, 2021 at 17:23:22. See the history of this page for a list of all contributions to it.

nLab Yoneda lemma for higher categories

Context

Yoneda lemma

Higher category theory

Basic concepts

Basic theorems

Applications

Models

Morphisms

Functors

Universal constructions

Extra properties and structure

1-categorical presentations

Contents

Idea

Yoneda embedding

Definition

Properties

Yoneda lemma

Proposition

Proposition

Preservation of limits

Proposition

Related concepts