In rational homotopy theory, one uses various algebras and coalgebras to model (simply connected) sp

Riley Yates

Riley Yates

Answered question

2022-05-21

In rational homotopy theory, one uses various algebras and coalgebras to model (simply connected) spaces (topological spaces or simplicial sets, usually) up to rational equivalences.
Two types of models one can use are dg cocommutative algebras (Quillen) and dg commutative algebras (Sullivan). I will leave the dg implicit from now on. The dual of a cocommutative coalgebra is always a commutative algebra (while the converse is only true in the finite dimensional case). I have the following question.
Let X be a simply connected space, and suppose C is a cocommutative rational model for X. Under what assumptions is its linear dual C a commutative rational model for X?

Answer & Explanation

xxsailojaixxv5

xxsailojaixxv5

Beginner2022-05-22Added 10 answers

Since we needed this and couldn't find it anywhere, we proved it. The correct statement is the following one.
Theorem: Let X be a simply connected space (i.e. simplicial set) of finite Q-type, and let C be a cocommutative rational model for X. Then C is a commutative model for X.

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