5
$\begingroup$

There exists a Quillen equivalence between $HRModSpectra$ (model category of ring spectra over Eilenberg-MacLane spectra $EM(R)$, where $R$ is a commutative ring, with stable model structure) and $Ch$ (model category of unbounded chain complexes of $R$-modules).

I was wondering what the Quillen functors are that give the above Quillen equivalence.

One can start with an unbounded chain complex $X$ and apply the Dold-Kan functor $\Gamma$ to chain complex $X_{\geq 0}$ to get a simplicial abelian group $\Gamma(X_{\geq 0})$, and then consider $\Gamma(X[-n]_{\geq0})$ (shifting $X$ to the left by n places, truncating and then applying $\Gamma$). This way one gets an $\Omega$-spectrum $Y$ = {${Y_{0}, Y_{1},...}$}, with $Y_{n} = \Gamma(X[-n]_{\geq0})$.

How does then one proceed to prove that $Y$ is a symmetric spectrum? For that one needs an action of symmetric group $S_{n}$ on $Y_{n}$. Now each $Y_{i}$ is in fact as a simplicial set equivalent to $\prod K(\pi_{k}(Y_{n}), k)$ and $K(\pi_{n}(Y_{n}), n)$ has an $S_{n}$ action, though I'm not sure if this action will satisfy the compatibility conditions that are required of a symmetric spectrum.

Improve this question
$\endgroup$
4
  • $\begingroup$ Careful: people mean a different thing with "stable Dold-Kan correspondence" (usually that in a stable category (co)simplicial objects are equivalent to filtered objects) $\endgroup$
    – Denis Nardin
    Commented Nov 13, 2017 at 20:11
  • $\begingroup$ ok! I was following the terminology from this ncatlab page theorem 2.2 ;link $\endgroup$
    – iron feliks
    Commented Nov 13, 2017 at 20:21
  • 3
    $\begingroup$ The Quillen equivalences were proven explicitly by Brooke Shipley and Stefan Schwede. See $H\mathbb{Z}$-algebra spectra are differential graded algebras by Shipley or Stable model categories are categories of modules by Schwede and Shipley. $\endgroup$
    – Lennart Meier
    Commented Nov 17, 2017 at 11:00
  • $\begingroup$ @LennartMeier thanks for the references and sorry for the late reply, I found what I needed in appendix of Stable model categories are categories of modules by Schwede and Shipley $\endgroup$
    – iron feliks
    Commented Feb 16, 2018 at 12:15

1 Answer 1

Reset to default
2
$\begingroup$

I'm posting a CW answer so that this doesn't remain open and unanswered, even though the OP said in the comments he figured it out. I just posted an answer to an analogous question and in doing so found this question. The relevant paper is "Stable model categories are categories of modules" by Schwede and Shipley. The construction the OP describes (Dold-Kan plus shift) is on page 39, where it is also shown how to make this into an $HR$-module (via the Alexander-Whitney map). Remark B.1.10 discusses the symmetric group actions. This functor $\mathcal{H}$ takes a chain complexes to a naive $HR$-module, not a symmetric spectrum. It is not an extension of the usual Eilenberg-MacLane functor, $H$. The authors claim that there is no way to make $\mathcal{H}R$ into a symmetric spectrum that is level equivalent to $HR$. This explains why the Quillen equivalence has to zig-zag through naive $HR$-modules.

Improve this answer
$\endgroup$

You must log in to answer this question.

Not the answer you're looking for? Browse other questions tagged .