Not signed in

Want to take part in these discussions? Sign in if you have an account, or apply for one below

• Forgot your password?
• Apply for membership

1. • CommentRowNumber1.
   • CommentAuthorUrs
   • CommentTimeNov 17th 2009
   • (edited Nov 30th 2012)
   • PermaLink
   Author: Urs
   Format: Markdownadded reference to <a href="http://ncatlab.org/nlab/show/Dold-Kan+correspondence#dendroidal_version_20">dendroidal version of Dold-Kan correspondence</a>

   added reference to dendroidal version of Dold-Kan correspondence

2. • CommentRowNumber2.
   • CommentAuthorUrs
   • CommentTimeJun 14th 2010
   • PermaLink
   Author: Urs
   Format: MarkdownItexadded to [[Dold-Kan correspondence]] a brief <a href="http://ncatlab.org/nlab/show/Dold-Kan+correspondence#ModelCatVersion">section</a> on how it yields Quillen equivalences of the natural model category structures in the game (I thought I had written something along these lines before somewhere, but maybe I didn't...)

   added to Dold-Kan correspondence a brief section on how it yields Quillen equivalences of the natural model category structures in the game

   (I thought I had written something along these lines before somewhere, but maybe I didn’t…)

3. • CommentRowNumber3.
   • CommentAuthorUrs
   • CommentTimeJul 27th 2010
   • (edited Jul 27th 2010)
   • PermaLink
   Author: Urs
   Format: MarkdownItexadded to [[Dold-Kan corresponden]] * a paragraph <a href="http://ncatlab.org/nlab/show/Dold-Kan+correspondence#GlobularAndCubical">on the cubical version</a> * a <a href="http://ncatlab.org/nlab/show/Dold-Kan+correspondence#InterpretationHigherCategoryTheory">paragraph</a> on how the simplical version factors through the globular version by the $\omega$-nerve. I did this mainly to record Richard Garner's argument. But in fact I feel that Ronnie Brown's argument is a little more powerful, as it also factors through the nonabelian version.

   added to Dold-Kan corresponden

   • a paragraph on the cubical version

   • a paragraph on how the simplical version factors through the globular version by the $\omega$-nerve.

   I did this mainly to record Richard Garner’s argument. But in fact I feel that Ronnie Brown’s argument is a little more powerful, as it also factors through the nonabelian version.

4. • CommentRowNumber4.
   • CommentAuthorUrs
   • CommentTimeNov 4th 2010
   • (edited Nov 4th 2010)
   • PermaLink
   Author: Urs
   Format: MarkdownItextried to brush-up the entry [[Dold-Kan correspondence]]. Here are some things I did: * rewrote the Idea-section, trying to make it be more forcefully to the point * split the Statement-section into subsection "Equivalence of categories" and "Quillen equivalence of model categories" * at "Equivalence of categories" I _removed_ a detailed discussion of the normalized chains complex functor itself. This material I instead copied over to [[Moore complex]], where it belongs. In that entry, I split the Definition-seciton into one for general simplicial groups and one for abelian simplicial groups * _removed_ all the material in the subsection "Monoidal version" and instead added a pointer there to [[monoidal Dold-Kan correspondence]] * this means I in particular have deleted the quote from Kathryn Hess there, which it said "should be worked into the entry". Instead I have taken care that all the information that was in this quote is now at "monoidal Dold-Kan correspondence". Notably there is a detailed list of literature and unpublished results and attributions of results there.

   tried to brush-up the entry Dold-Kan correspondence. Here are some things I did:

   • rewrote the Idea-section, trying to make it be more forcefully to the point

   • split the Statement-section into subsection “Equivalence of categories” and “Quillen equivalence of model categories”

   • at “Equivalence of categories” I removed a detailed discussion of the normalized chains complex functor itself. This material I instead copied over to Moore complex, where it belongs. In that entry, I split the Definition-seciton into one for general simplicial groups and one for abelian simplicial groups

   • removed all the material in the subsection “Monoidal version” and instead added a pointer there to monoidal Dold-Kan correspondence

   • this means I in particular have deleted the quote from Kathryn Hess there, which it said “should be worked into the entry”. Instead I have taken care that all the information that was in this quote is now at “monoidal Dold-Kan correspondence”. Notably there is a detailed list of literature and unpublished results and attributions of results there.

5. • CommentRowNumber5.
   • CommentAuthorUrs
   • CommentTimeNov 4th 2010
   • PermaLink
   Author: Urs
   Format: MarkdownItexI tried to collect the three subsections on globular and on nonabelian versions and the section describing the connection to strict groupal oo-groupoids I wasn't sure how to do it and ended up deciding to collect them in a subsection titled <a href="http://ncatlab.org/nlab/show/Dold-Kan+correspondence#StatementGeneral">Statement (general nonabelian case)</a>. But momentarily that does not quite live up to its title yet.

   I tried to collect the three subsections on globular and on nonabelian versions and the section describing the connection to strict groupal oo-groupoids

   I wasn’t sure how to do it and ended up deciding to collect them in a subsection titled Statement (general nonabelian case). But momentarily that does not quite live up to its title yet.

6. • CommentRowNumber6.
   • CommentAuthorUrs
   • CommentTimeNov 4th 2010
   • PermaLink
   Author: Urs
   Format: MarkdownItexadded to the section <a href="http://ncatlab.org/nlab/show/Dold-Kan+correspondence#EquivalenceOfCategories">Equivalence of categories</a> the gory details of the components of the natural isomorphisms $$ Id \to N \Gamma $$ and $$ \Gamma N \to Id \,. $$ Does anyone know a source that checks explicitly that this makes the equivalence an _adjoint equivalence_ ? Of course it's straightforward to check. But tedious.

   added to the section Equivalence of categories the gory details of the components of the natural isomorphisms

   $$Id \to N \Gamma$$

   and

   $$\Gamma N \to Id \,.$$

   Does anyone know a source that checks explicitly that this makes the equivalence an adjoint equivalence ?

   Of course it’s straightforward to check. But tedious.

7. • CommentRowNumber7.
   • CommentAuthorUrs
   • CommentTimeNov 4th 2010
   • (edited Nov 4th 2010)
   • PermaLink
   Author: Urs
   Format: MarkdownItexI have cited Weibel, exercise 8.4.2 now for the statement (at the end of <a href="http://ncatlab.org/nlab/show/Dold-Kan+correspondence#EquivalenceOfCategories">DK -- equivalence of categories</a>). Then I started a section <a href="http://ncatlab.org/nlab/show/Dold-Kan+correspondence#Applications">Applications</a>. So far it contains: construction of Eilenberg-MacLane objects and embedding of abelian sheaf cohomology into nonabelian cohomology

   I have cited Weibel, exercise 8.4.2 now for the statement (at the end of DK – equivalence of categories).

   Then I started a section Applications. So far it contains: construction of Eilenberg-MacLane objects and embedding of abelian sheaf cohomology into nonabelian cohomology

8. • CommentRowNumber8.
   • CommentAuthorUrs
   • CommentTimeJun 27th 2011
   • PermaLink
   Author: Urs
   Format: MarkdownItexhave recoded the statement that the [[Dold-Kan correspondence]] is compatible with $\bar W$-delooping of simplicial abelian groups in a new Properties-section [Looping and delooping](http://ncatlab.org/nlab/show/Dold-Kan+correspondence#LoopingAndDelooping)

   have recoded the statement that the Dold-Kan correspondence is compatible with $\bar W$-delooping of simplicial abelian groups in a new Properties-section Looping and delooping

9. • CommentRowNumber9.
   • CommentAuthorjim_stasheff
   • CommentTimeJun 28th 2011
   • PermaLink
   Author: jim_stasheff
   Format: TextMoore complex - and no citation of Moore! and not even an indication of which Moore!!

   Moore complex - and no citation of Moore!
   and not even an indication of which Moore!!
10. • CommentRowNumber10.
    • CommentAuthorUrs
    • CommentTimeJun 28th 2011
    • PermaLink
    Author: Urs
    Format: MarkdownItex> and no citation of Moore Can you provide it?

    and no citation of Moore

    Can you provide it?

11. • CommentRowNumber11.
    • CommentAuthorUrs
    • CommentTimeJun 30th 2011
    • PermaLink
    Author: Urs
    Format: MarkdownItexHi Jim, I have added your Alg-Top findings to [[Moore complex]]

    Hi Jim,

    I have added your Alg-Top findings to Moore complex

12. • CommentRowNumber12.
    • CommentAuthorUrs
    • CommentTimeNov 30th 2012
    • (edited Nov 30th 2012)
    • PermaLink
    Author: Urs
    Format: MarkdownItexI see that at _[[Dold-Kan correspondence]]_ somebody had added a very first sentence to read > In some sense the Dold-Kan correspondence is the categorification of the statement that ℕ and ℤ are isomorphic in the category of sets in that they have the same cardinality. I don't understand this sentence. I think it needs to come with more explanation. Also I think this is unsuited for the very first sentence of the Idea section. It's more like a Zen koan than an explanation of an idea. I have moved the sentence now to [Properties -- Relation to categorification](http://ncatlab.org/nlab/show/Dold-Kan correspondence#RelationToCategorification). There sombody please expand on the details alluded to by the sentence.

    I see that at Dold-Kan correspondence somebody had added a very first sentence to read

    In some sense the Dold-Kan correspondence is the categorification of the statement that ℕ and ℤ are isomorphic in the category of sets in that they have the same cardinality.

    I don’t understand this sentence. I think it needs to come with more explanation.

    Also I think this is unsuited for the very first sentence of the Idea section. It’s more like a Zen koan than an explanation of an idea.

    I have moved the sentence now to [Properties – Relation to categorification](http://ncatlab.org/nlab/show/Dold-Kan correspondence#RelationToCategorification). There sombody please expand on the details alluded to by the sentence.

13. • CommentRowNumber13.
    • CommentAuthorMike Shulman
    • CommentTimeDec 1st 2012
    • PermaLink
    Author: Mike Shulman
    Format: MarkdownItexI don't suppose you noticed who that was? It doesn't make any sense to me.

    I don’t suppose you noticed who that was? It doesn’t make any sense to me.

14. • CommentRowNumber14.
    • CommentAuthorUrs
    • CommentTimeDec 2nd 2012
    • (edited Dec 2nd 2012)
    • PermaLink
    Author: Urs
    Format: MarkdownItexI hesitate to check the History-list, because it can be very tedious to find the point where something was added (the quickest general method I can think of is to do a binary search on the length of the history list, last time I had to do this it took me forever...). But now I did and in this case I was lucky: it was Stephan Spahn (or somebody signing with his name....), in the latest edit before mine. I'll check with him now.

    I hesitate to check the History-list, because it can be very tedious to find the point where something was added (the quickest general method I can think of is to do a binary search on the length of the history list, last time I had to do this it took me forever…).

    But now I did and in this case I was lucky: it was Stephan Spahn (or somebody signing with his name….), in the latest edit before mine. I’ll check with him now.

15. • CommentRowNumber15.
    • CommentAuthorUrs
    • CommentTimeDec 2nd 2012
    • PermaLink
    Author: Urs
    Format: MarkdownItexI have removed the sentence for the moment. If Stephan or somebody later remembers some story similar to this sentence which is worth recording, we can still do so.

    I have removed the sentence for the moment. If Stephan or somebody later remembers some story similar to this sentence which is worth recording, we can still do so.

16. • CommentRowNumber16.
    • CommentAuthorlentic catachresis
    • CommentTimeJun 23rd 2016
    • PermaLink
    Author: lentic catachresis
    Format: MarkdownItexHi Urs, in reply to your comment number 6: what about the following? In Kan's original paper (Functors involving css complexes), Proposition 6.3., he proves (if I managed to untangle the notations correctly), that the usual normalized Moore functor $N$ is naturally isomorphic to the functor tensor product $-\otimes_\Delta N\mathbb{Z}[\Delta^\bullet]$, where $\mathbb{Z}[\Delta^\bullet]$ denotes the free simplicial abelian group on the Yoneda embedding. Then by abstract nonsense we arrive (Kan arrived, in that paper) at the "hom" expression for the right adjoint $\Gamma$.

    Hi Urs,

    in reply to your comment number 6: what about the following?

    In Kan’s original paper (Functors involving css complexes), Proposition 6.3., he proves (if I managed to untangle the notations correctly), that the usual normalized Moore functor $N$ is naturally isomorphic to the functor tensor product $-\otimes_\Delta N\mathbb{Z}[\Delta^\bullet]$, where $\mathbb{Z}[\Delta^\bullet]$ denotes the free simplicial abelian group on the Yoneda embedding.

    Then by abstract nonsense we arrive (Kan arrived, in that paper) at the “hom” expression for the right adjoint $\Gamma$.

17. • CommentRowNumber17.
    • CommentAuthorUrs
    • CommentTimeJun 23rd 2016
    • PermaLink
    Author: Urs
    Format: MarkdownItexThanks for getting back to this. I don't have free resources at the moment to look into this. But if you are sure, please add a corresponding remark to the entry!

    Thanks for getting back to this. I don’t have free resources at the moment to look into this. But if you are sure, please add a corresponding remark to the entry!

18. • CommentRowNumber18.
    • CommentAuthorlentic catachresis
    • CommentTimeJun 23rd 2016
    • PermaLink
    Author: lentic catachresis
    Format: MarkdownItexI would like to be sure that I untangled Kan's notations correctly before adding the remark, though... At any rate, the article is [available here](http://www.maths.ed.ac.uk/~aar/papers/kan4.pdf).

    I would like to be sure that I untangled Kan’s notations correctly before adding the remark, though…

    At any rate, the article is available here.

19. • CommentRowNumber19.
    • CommentAuthorUrs
    • CommentTimeSep 12th 2020
    • PermaLink
    Author: Urs
    Format: MarkdownItexadded pointer to * [[Daniel Quillen]], Section II.4 item 5 in: _[[Homotopical Algebra]]_, Lecture Notes in Mathematics 43, Springer 1967([doi:10.1007/BFb0097438](https://doi.org/10.1007/BFb0097438)) <a href="https://ncatlab.org/nlab/revision/diff/Dold-Kan+correspondence/105">diff</a>, <a href="https://ncatlab.org/nlab/revision/Dold-Kan+correspondence/105">v105</a>, <a href="https://ncatlab.org/nlab/show/Dold-Kan+correspondence">current</a>

    added pointer to

    • Daniel Quillen, Section II.4 item 5 in: Homotopical Algebra, Lecture Notes in Mathematics 43, Springer 1967(doi:10.1007/BFb0097438)

    diff, v105, current

20. • CommentRowNumber20.
    • CommentAuthorUrs
    • CommentTimeSep 14th 2020
    • PermaLink
    Author: Urs
    Format: MarkdownItexadded pointer to * [[J. F. Jardine]], Lemma 1.5 in: _Presheaves of chain complexes_, K-theory 30.4 (2003): 365-420 ([pdf](https://pdfs.semanticscholar.org/360c/fd4eb76da956e0c8dd897377f6d6f342e44e.pdf)) <a href="https://ncatlab.org/nlab/revision/diff/Dold-Kan+correspondence/108">diff</a>, <a href="https://ncatlab.org/nlab/revision/Dold-Kan+correspondence/108">v108</a>, <a href="https://ncatlab.org/nlab/show/Dold-Kan+correspondence">current</a>

    added pointer to

    • J. F. Jardine, Lemma 1.5 in: Presheaves of chain complexes, K-theory 30.4 (2003): 365-420 (pdf)

    diff, v108, current

21. • CommentRowNumber21.
    • CommentAuthorTim_Porter
    • CommentTimeSep 19th 2020
    • PermaLink
    Author: Tim_Porter
    Format: MarkdownItexCreated some links on relevant names. <a href="https://ncatlab.org/nlab/revision/diff/Dold-Kan+correspondence/110">diff</a>, <a href="https://ncatlab.org/nlab/revision/Dold-Kan+correspondence/110">v110</a>, <a href="https://ncatlab.org/nlab/show/Dold-Kan+correspondence">current</a>

    Created some links on relevant names.

    diff, v110, current

22. • CommentRowNumber22.
    • CommentAuthorUrs
    • CommentTimeJul 12th 2021
    • PermaLink
    Author: Urs
    Format: MarkdownItexI forget if I had an argument for this: Is the Dold-Kan correspondence $ N \colon sAb \rightleftarrows Ch^+_\bullet \colon DK $ compatible with internal homs, in that the following is a simplicial weak equivalence $$ \begin{aligned} \big[ S, \, frgt \circ DK(V) \big]_\bullet & \;\simeq\; sSet \big( S \times \Delta[\bullet], \, frgt \circ DK(V) \big) \\ & \;\simeq\; Ch_\bullet^+ \big( N \circ \mathbb{Z}(S \times \Delta[\bullet]), \, V \big) \\ & \;\xrightarrow{EZ}\; Ch_\bullet^+ \big( N \circ \mathbb{Z}(S) \,\otimes\, N \circ \mathbb{Z}(\Delta[\bullet]), \, V \big) \\ & \;\simeq\; Ch_\bullet^+ \big( N \circ \mathbb{Z}(\Delta[\bullet]), \, [ N \circ \mathbb{Z}(S), \, V ] \big) \\ & \;\simeq\; \Big( frgt \circ DK \big( [ N \circ \mathbb{Z}(S), \, V ] \big) \Big)_\bullet \end{aligned} $$ ? Here $ \mathbb{Z} \colon sSet \rightleftarrows sAb \colon frgt $ denotes the free/forgetful adjunction, and EZ denotes precomposition with the Eilenberg-Zilber map.

    I forget if I had an argument for this:

    Is the Dold-Kan correspondence $N \colon sAb \rightleftarrows Ch^+_\bullet \colon DK$ compatible with internal homs, in that the following is a simplicial weak equivalence

    $$\begin{aligned} \big[ S, \, frgt \circ DK(V) \big]_\bullet & \;\simeq\; sSet \big( S \times \Delta[\bullet], \, frgt \circ DK(V) \big) \\ & \;\simeq\; Ch_\bullet^+ \big( N \circ \mathbb{Z}(S \times \Delta[\bullet]), \, V \big) \\ & \;\xrightarrow{EZ}\; Ch_\bullet^+ \big( N \circ \mathbb{Z}(S) \,\otimes\, N \circ \mathbb{Z}(\Delta[\bullet]), \, V \big) \\ & \;\simeq\; Ch_\bullet^+ \big( N \circ \mathbb{Z}(\Delta[\bullet]), \, [ N \circ \mathbb{Z}(S), \, V ] \big) \\ & \;\simeq\; \Big( frgt \circ DK \big( [ N \circ \mathbb{Z}(S), \, V ] \big) \Big)_\bullet \end{aligned}$$

    ?

    Here $\mathbb{Z} \colon sSet \rightleftarrows sAb \colon frgt$ denotes the free/forgetful adjunction, and EZ denotes precomposition with the Eilenberg-Zilber map.

23. • CommentRowNumber23.
    • CommentAuthorDmitri Pavlov
    • CommentTimeJul 12th 2021
    • PermaLink
    Author: Dmitri Pavlov
    Format: MarkdownItexRe #22: Yes, because the Eilenberg–Zilber map is a chain homotopy equivalence.

    Re #22: Yes, because the Eilenberg–Zilber map is a chain homotopy equivalence.

24. • CommentRowNumber24.
    • CommentAuthorUrs
    • CommentTimeJul 13th 2021
    • PermaLink
    Author: Urs
    Format: MarkdownItexSure, but why does that make the given map a simplicial equivalence?

    Sure, but why does that make the given map a simplicial equivalence?

25. • CommentRowNumber25.
    • CommentAuthorUrs
    • CommentTimeJul 13th 2021
    • PermaLink
    Author: Urs
    Format: MarkdownItexOh, I see, you are saying it's a strong homotopy, not just a weak homotopy equivalence. Right, I had forgotten about that. Thanks!

    Oh, I see, you are saying it’s a strong homotopy, not just a weak homotopy equivalence. Right, I had forgotten about that. Thanks!

26. • CommentRowNumber26.
    • CommentAuthorUrs
    • CommentTimeJul 13th 2021
    • PermaLink
    Author: Urs
    Format: MarkdownItexTo be frank. I am still stuck, though: So defining $$ \begin{aligned} \big[ S, \, frgt \circ DK(V) \big]_\bullet & \;\simeq\; sSet \big( S \times \Delta[\bullet], \, frgt \circ DK(V) \big) \\ & \;\simeq\; Ch_+ \big( N \circ \mathbb{Z}(S \times \Delta[\bullet]), \, V \big) \\ & \;\xrightarrow{EZ_S}\; Ch_+ \big( N \circ \mathbb{Z}(S) \,\otimes\, N \circ \mathbb{Z}(\Delta[\bullet]), \, V \big) \\ & \;\simeq\; Ch_+ \big( N \circ \mathbb{Z}(\Delta[\bullet]), \, [ N \circ \mathbb{Z}(S), \, V ] \big) \\ & \;\simeq\; \Big( frgt \circ DK \big( [ N \circ \mathbb{Z}(S), \, V ] \big) \Big)_\bullet \end{aligned} $$ and $$ \begin{aligned} \Big( frgt \circ DK \big( [ N \circ \mathbb{Z}(S), \, V ] \big) \Big)_\bullet & \;\simeq\; Ch_+ \big( N \circ \mathbb{Z}(\Delta[\bullet]), \, [ N \circ \mathbb{Z}(S), \, V ] \big) \\ & \;\simeq\; Ch_+ \big( N \circ \mathbb{Z}(S) \,\otimes\, N \circ \mathbb{Z}(\Delta[\bullet]), \, V \big) \\ & \xrightarrow{AW_S} Ch_+ \big( N \circ \mathbb{Z}(S \times \Delta[\bullet]), \, V \big) \\ & \;\simeq\; sSet \big( S \times \Delta[\bullet], \, frgt \circ DK(V) \big) \\ & \;\simeq\; \big[ S, \, frgt \circ DK(V) \big]_\bullet \end{aligned} $$ we have that the simplicial map $$ \big[ S, \, frgt \circ DK(V) \big]_\bullet \xrightarrow{\;EZ_S\;} \Big( frgt \circ DK \big( [ N \circ \mathbb{Z}(S), \, V ] \big) \Big)_\bullet \xrightarrow{\;AW_S\;} \big[ S, \, frgt \circ DK(V) \big]_\bullet $$ is the identity. Fine. We need moreover a simplicial homotopy from $$ \Big( frgt \circ DK \big( [ N \circ \mathbb{Z}(S), \, V ] \big) \Big)_\bullet \xrightarrow{\;AW_S\;} \big[ S, \, frgt \circ DK(V) \big]_\bullet \xrightarrow{\;EZ_S\;} \Big( frgt \circ DK \big( [ N \circ \mathbb{Z}(S), \, V ] \big) \Big)_\bullet $$ to the identity. I take it that your implicit suggestion was to use the chain homotopies $$ \Big( N \circ \mathbb{Z}(\Delta[1]) \Big) \otimes N \circ \mathbb{Z}(S \times \Delta[\bullet]) \xrightarrow{ EZ \circ AW \Rightarrow id} N \circ \mathbb{Z}(S \times \Delta[\bullet]) $$ from the Eilenberg-Zilber theorem and look at their image under $Ch_+\big( -, V \big)$. But it is unclear to me how this gives a simplicial homotopy as needed.

    To be frank. I am still stuck, though:

    So defining

    $$\begin{aligned} \big[ S, \, frgt \circ DK(V) \big]_\bullet & \;\simeq\; sSet \big( S \times \Delta[\bullet], \, frgt \circ DK(V) \big) \\ & \;\simeq\; Ch_+ \big( N \circ \mathbb{Z}(S \times \Delta[\bullet]), \, V \big) \\ & \;\xrightarrow{EZ_S}\; Ch_+ \big( N \circ \mathbb{Z}(S) \,\otimes\, N \circ \mathbb{Z}(\Delta[\bullet]), \, V \big) \\ & \;\simeq\; Ch_+ \big( N \circ \mathbb{Z}(\Delta[\bullet]), \, [ N \circ \mathbb{Z}(S), \, V ] \big) \\ & \;\simeq\; \Big( frgt \circ DK \big( [ N \circ \mathbb{Z}(S), \, V ] \big) \Big)_\bullet \end{aligned}$$

    and

    $$\begin{aligned} \Big( frgt \circ DK \big( [ N \circ \mathbb{Z}(S), \, V ] \big) \Big)_\bullet & \;\simeq\; Ch_+ \big( N \circ \mathbb{Z}(\Delta[\bullet]), \, [ N \circ \mathbb{Z}(S), \, V ] \big) \\ & \;\simeq\; Ch_+ \big( N \circ \mathbb{Z}(S) \,\otimes\, N \circ \mathbb{Z}(\Delta[\bullet]), \, V \big) \\ & \xrightarrow{AW_S} Ch_+ \big( N \circ \mathbb{Z}(S \times \Delta[\bullet]), \, V \big) \\ & \;\simeq\; sSet \big( S \times \Delta[\bullet], \, frgt \circ DK(V) \big) \\ & \;\simeq\; \big[ S, \, frgt \circ DK(V) \big]_\bullet \end{aligned}$$

    we have that the simplicial map

    $$\big[ S, \, frgt \circ DK(V) \big]_\bullet \xrightarrow{\;EZ_S\;} \Big( frgt \circ DK \big( [ N \circ \mathbb{Z}(S), \, V ] \big) \Big)_\bullet \xrightarrow{\;AW_S\;} \big[ S, \, frgt \circ DK(V) \big]_\bullet$$

    is the identity. Fine. We need moreover a simplicial homotopy from

    $$\Big( frgt \circ DK \big( [ N \circ \mathbb{Z}(S), \, V ] \big) \Big)_\bullet \xrightarrow{\;AW_S\;} \big[ S, \, frgt \circ DK(V) \big]_\bullet \xrightarrow{\;EZ_S\;} \Big( frgt \circ DK \big( [ N \circ \mathbb{Z}(S), \, V ] \big) \Big)_\bullet$$

    to the identity. I take it that your implicit suggestion was to use the chain homotopies

    $$\Big( N \circ \mathbb{Z}(\Delta[1]) \Big) \otimes N \circ \mathbb{Z}(S \times \Delta[\bullet]) \xrightarrow{ EZ \circ AW \Rightarrow id} N \circ \mathbb{Z}(S \times \Delta[\bullet])$$

    from the Eilenberg-Zilber theorem and look at their image under $Ch_+\big( -, V \big)$. But it is unclear to me how this gives a simplicial homotopy as needed.

27. • CommentRowNumber27.
    • CommentAuthorUrs
    • CommentTimeJul 13th 2021
    • PermaLink
    Author: Urs
    Format: MarkdownItexBut I think I am fine in the simple case that I am interested in, which is (a) $S = \Delta[1]/\partial \Delta[1]$ and (b) $V$ is concentrated on the integers in some degree. Namely, in that case we know with (a) that the simplicial homotopy groups on both sides are isomorphic (by the discussion at *[[free loop space of a classifying space]]* [here](https://ncatlab.org/nlab/show/free+loop+space%20of%20classifying%20space#ExampleForSimplicialAbelianGroups)), both being, by (b) copies of the integers in two degrees. So now the retraction-part of the EZ theorem says that $EZ_S$ induces in these degrees a retraction of the integers onto the integers. But that must be an isomorphism.

    But I think I am fine in the simple case that I am interested in, which is (a) $S = \Delta[1]/\partial \Delta[1]$ and (b) $V$ is concentrated on the integers in some degree. Namely, in that case we know with (a) that the simplicial homotopy groups on both sides are isomorphic (by the discussion at free loop space of a classifying space here), both being, by (b) copies of the integers in two degrees. So now the retraction-part of the EZ theorem says that $EZ_S$ induces in these degrees a retraction of the integers onto the integers. But that must be an isomorphism.

28. • CommentRowNumber28.
    • CommentAuthorDmitri Pavlov
    • CommentTimeJul 14th 2021
    • PermaLink
    Author: Dmitri Pavlov
    Format: MarkdownItexRe #26: Here is a simpler argument. Since you have already constructed a map, to show that it is a weak equivalence for all S, it suffices to observe that it sends homotopy colimits in S to homotopy limits. Indeed, [S,frgt∘DK(V)] and (frgt∘DK([N∘ℤ(S),V])) are fully derived constructions: DK, frgt, N, Z[-] all preserve weak equivalences; frgt∘DK lands in Kan complexes, so [S,frgt∘DK(V)] is derived, and NZ[-] lands in projectively cofibrant chain complexes, so [N∘ℤ(S),V] is derived. Furthermore, frgt preserves homotopy limits, Z[-] preserves homotopy colimits, N and DK preserve both, and internal homs send homotopy colimits in the first argument to homotopy limits. Thus, it suffices to verify the claim for S=Δ^0, for which the corresponding map is an isomorphism.

    Re #26: Here is a simpler argument. Since you have already constructed a map, to show that it is a weak equivalence for all S, it suffices to observe that it sends homotopy colimits in S to homotopy limits.

    Indeed, [S,frgt∘DK(V)] and (frgt∘DK([N∘ℤ(S),V])) are fully derived constructions: DK, frgt, N, Z[-] all preserve weak equivalences; frgt∘DK lands in Kan complexes, so [S,frgt∘DK(V)] is derived, and NZ[-] lands in projectively cofibrant chain complexes, so [N∘ℤ(S),V] is derived. Furthermore, frgt preserves homotopy limits, Z[-] preserves homotopy colimits, N and DK preserve both, and internal homs send homotopy colimits in the first argument to homotopy limits.

    Thus, it suffices to verify the claim for S=Δ^0, for which the corresponding map is an isomorphism.

29. • CommentRowNumber29.
    • CommentAuthorGuest
    • CommentTimeMay 10th 2022
    • PermaLink
    Author: Guest
    Format: TextThe functor called Gamma in this article is the Eilenberg-Maclane space K, and was first introduced in their article in 1954, long before Dold and Kan wrote anything on the subject. They did not know that the normalized chain functor of the Eilenberg-Maclane space of a chain complex A was naturally isomorphic to A - this is the precise statement that is proved by Dold and Kan. They prove this by showing that the normalized chain functor is both a left and a right adjoint to K: equivalently, that the two definitions of the normalized chain functor, as a kernel of face maps or as a cokernel of degeneracy maps, are naturally isomorphic. Ezra Getzler

    The functor called Gamma in this article is the Eilenberg-Maclane space K, and was first introduced in their article in 1954, long before Dold and Kan wrote anything on the subject. They did not know that the normalized chain functor of the Eilenberg-Maclane space of a chain complex A was naturally isomorphic to A - this is the precise statement that is proved by Dold and Kan. They prove this by showing that the normalized chain functor is both a left and a right adjoint to K: equivalently, that the two definitions of the normalized chain functor, as a kernel of face maps or as a cokernel of degeneracy maps, are naturally isomorphic.
    
    Ezra Getzler
30. • CommentRowNumber30.
    • CommentAuthorDmitri Pavlov
    • CommentTimeMay 26th 2022
    • PermaLink
    Author: Dmitri Pavlov
    Format: MarkdownItexCorrected a broken link to the Dold–Puppe paper. This article currently claims > This remarkable article, which appeared shortly after the work by Dold and Puppe but was apparently not influenced by that … where “this remarkable article” refers to the 1958 paper by Kan and “the work by Dold and Puppe” refers to the 1961 paper by Dold–Puppe. How exactly does a 1958 paper “appear shortly after” a 1961 paper? <a href="https://ncatlab.org/nlab/revision/diff/Dold-Kan+correspondence/120">diff</a>, <a href="https://ncatlab.org/nlab/revision/Dold-Kan+correspondence/120">v120</a>, <a href="https://ncatlab.org/nlab/show/Dold-Kan+correspondence">current</a>

    Corrected a broken link to the Dold–Puppe paper.

    This article currently claims

    This remarkable article, which appeared shortly after the work by Dold and Puppe but was apparently not influenced by that …

    where “this remarkable article” refers to the 1958 paper by Kan and “the work by Dold and Puppe” refers to the 1961 paper by Dold–Puppe.

    How exactly does a 1958 paper “appear shortly after” a 1961 paper?

    diff, v120, current

31. • CommentRowNumber31.
    • CommentAuthorUrs
    • CommentTimeMay 27th 2022
    • PermaLink
    Author: Urs
    Format: MarkdownItexDon't remember what happened there. I have removed these words now, but anyone versed in the history of the subject should feel free to further adjust/expand. Also fixed a few minor glitches, such as the typesetting of "Słomińska". <a href="https://ncatlab.org/nlab/revision/diff/Dold-Kan+correspondence/121">diff</a>, <a href="https://ncatlab.org/nlab/revision/Dold-Kan+correspondence/121">v121</a>, <a href="https://ncatlab.org/nlab/show/Dold-Kan+correspondence">current</a>

    Don’t remember what happened there. I have removed these words now, but anyone versed in the history of the subject should feel free to further adjust/expand.

    Also fixed a few minor glitches, such as the typesetting of “Słomińska”.

    diff, v121, current

32. • CommentRowNumber32.
    • CommentAuthorjesuslop
    • CommentTimeFeb 13th 2023
    • PermaLink
    Author: jesuslop
    Format: MarkdownItexIn the second paragraph of the Idea there is a mention/link to $\infty$-groups, the link in source being `[[∞-group]]` It currently opens [[Omega-group]] but I think the intended target would be [[infinity-group]] At Omega-group there is a yellow warning: `Note: infinity-group and Omega-group both redirect for "∞-group".` Maybe the ∞-group and plural redirects [[Omega group]] should be deleted (?).

    In the second paragraph of the Idea there is a mention/link to $\infty$-groups, the link in source being [[∞-group]]

    It currently opens Omega-group

    but I think the intended target would be infinity-group

    At Omega-group there is a yellow warning:

    Note: infinity-group and Omega-group both redirect for "∞-group".

    Maybe the ∞-group and plural redirects Omega group should be deleted (?).

33. • CommentRowNumber33.
    • CommentAuthorUrs
    • CommentTimeFeb 14th 2023
    • (edited Feb 14th 2023)
    • PermaLink
    Author: Urs
    Format: MarkdownItexThanks for bringing this up. I had no idea that there was such a wild mis-redirect at *Omega-group* all along. Have removed it (announced [there](https://nforum.ncatlab.org/discussion/9306/omegagroup/?Focus=107096#Comment_107096)).

    Thanks for bringing this up. I had no idea that there was such a wild mis-redirect at Omega-group all along. Have removed it (announced there).

34. • CommentRowNumber34.
    • CommentAuthorUrs
    • CommentTimeApr 20th 2023
    • PermaLink
    Author: Urs
    Format: MarkdownItexadded a brief paragraph ([here](https://ncatlab.org/nlab/show/Dold-Kan+correspondence#StatementAdditiveACase)) making explicit that there is a generalization to abelian categories and further to additive categories in which all retractions come from direct sums. <a href="https://ncatlab.org/nlab/revision/diff/Dold-Kan+correspondence/125">diff</a>, <a href="https://ncatlab.org/nlab/revision/Dold-Kan+correspondence/125">v125</a>, <a href="https://ncatlab.org/nlab/show/Dold-Kan+correspondence">current</a>

    added a brief paragraph (here) making explicit that there is a generalization to abelian categories and further to additive categories in which all retractions come from direct sums.

    diff, v125, current

35. • CommentRowNumber35.
    • CommentAuthorTim_Porter
    • CommentTimeOct 26th 2023
    • (edited Oct 27th 2023)
    • PermaLink
    Author: Tim_Porter
    Format: MarkdownItexFixed two dead links <a href="https://ncatlab.org/nlab/revision/diff/Dold-Kan+correspondence/127">diff</a>, <a href="https://ncatlab.org/nlab/revision/Dold-Kan+correspondence/127">v127</a>, <a href="https://ncatlab.org/nlab/show/Dold-Kan+correspondence">current</a>

    Fixed two dead links

    diff, v127, current

36. • CommentRowNumber36.
    • CommentAuthornLab edit announcer
    • CommentTimeFeb 10th 2024
    • PermaLink
    Author: nLab edit announcer
    Format: MarkdownItexFiced two dead links G. Nan Tie <a href="https://ncatlab.org/nlab/revision/diff/Dold-Kan+correspondence/128">diff</a>, <a href="https://ncatlab.org/nlab/revision/Dold-Kan+correspondence/128">v128</a>, <a href="https://ncatlab.org/nlab/show/Dold-Kan+correspondence">current</a>

    Ficed two dead links

    G. Nan Tie

    diff, v128, current

37. • CommentRowNumber37.
    • CommentAuthorTim_Porter
    • CommentTimeApr 17th 2024
    • PermaLink
    Author: Tim_Porter
    Format: MarkdownItexMinor format. <a href="https://ncatlab.org/nlab/revision/diff/Dold-Kan+correspondence/129">diff</a>, <a href="https://ncatlab.org/nlab/revision/Dold-Kan+correspondence/129">v129</a>, <a href="https://ncatlab.org/nlab/show/Dold-Kan+correspondence">current</a>

    Minor format.

    diff, v129, current

38. • CommentRowNumber38.
    • CommentAuthornLab edit announcer
    • CommentTimeAug 29th 2024
    • PermaLink
    Author: nLab edit announcer
    Format: MarkdownItexUpdated reference to Helmstutler article to published version (which is superior to the arxiv version currently linked) Helmstutler <a href="https://ncatlab.org/nlab/revision/diff/Dold-Kan+correspondence/131">diff</a>, <a href="https://ncatlab.org/nlab/revision/Dold-Kan+correspondence/131">v131</a>, <a href="https://ncatlab.org/nlab/show/Dold-Kan+correspondence">current</a>

    Updated reference to Helmstutler article to published version (which is superior to the arxiv version currently linked)

    Helmstutler

    diff, v131, current

39. • CommentRowNumber39.
    • CommentAuthorzskoda
    • CommentTimeSep 28th 2024
    • PermaLink
    Author: zskoda
    Format: MarkdownItexDold-Kan correspondence in idempotent complete additive categories * [[Volodymyr Lyubashenko]], _Dold--Kan correspondence, revisited_, Appl. Categor. Struct. __30__, 543–-567 (2022). [doi](https://doi.org/10.1007/s10485-021-09665-7) <a href="https://ncatlab.org/nlab/revision/diff/Dold-Kan+correspondence/132">diff</a>, <a href="https://ncatlab.org/nlab/revision/Dold-Kan+correspondence/132">v132</a>, <a href="https://ncatlab.org/nlab/show/Dold-Kan+correspondence">current</a>

    Dold-Kan correspondence in idempotent complete additive categories

    • Volodymyr Lyubashenko, Dold–Kan correspondence, revisited, Appl. Categor. Struct. 30, 543–-567 (2022). doi

    diff, v132, current