In general, we have functors <mi class="MJX-tex-caligraphic" mathvariant="script">S

wanaopatays

wanaopatays

Answered question

2022-05-22

In general, we have functors S C R R / ϕ D G A R ψ E I R / . If R is a Q-algebra, then ψ is an equivalence of -categories, ϕ is fully faithful, and the essential image of ϕ consists of the connective objects of D G A R E I R / (that is, those algebras A having π i A = 0 for i < 0).
What is the explicit functor ϕ : S C R R / D G A R ? I suppose that the natural thing would be to take a simplicial R-algebra A and assign it to
ϕ ( A ) = i = 0 π i A ,
and take a map f : A B and assign it to
ϕ ( f ) = i = 0 ( f i : π i A π i B ) ,
but as far as I could find this isn't stated explicitly in DAG. Is this the case, and if so, do you have a source or proof? And how does one show that π i A is a differential graded algebra?

Answer & Explanation

redclick53

redclick53

Beginner2022-05-23Added 12 answers

The functor SCR→CDGA is given by the normalized chains functor N: sAb→Ch on underlying objects without multiplication, and the multiplication is given by the composition NA⊗NA→N(A⊗A)→NA, where the first map is the Eilenberg–Zilber map and the second map is the normalized chains functor applied to the multiplication map A⊗A→A. The Eilenberg–Zilber map is symmetric, so the above construction indeed lands in commutative differential graded algebras.
Waylon Ruiz

Waylon Ruiz

Beginner2022-05-24Added 7 answers

Good.

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