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1. • CommentRowNumber1.
   • CommentAuthorJon Beardsley
   • CommentTimeMar 27th 2014
   • PermaLink
   Author: Jon Beardsley
   Format: MarkdownItexI made a new page called [[twisted form]]. Unfortunately, this stole the redirect from a sub-heading on [[differential form]]. The page is still pretty much a stub. I hope to enlarge it soon.

   I made a new page called twisted form. Unfortunately, this stole the redirect from a sub-heading on differential form. The page is still pretty much a stub. I hope to enlarge it soon.

2. • CommentRowNumber2.
   • CommentAuthorUrs
   • CommentTimeMar 27th 2014
   • (edited Mar 27th 2014)
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   Author: Urs
   Format: MarkdownItexThanks! I just made some minor formatting edits: added a few more hyperlinks, a table of contents and a floating context.

   Thanks!

   I just made some minor formatting edits: added a few more hyperlinks, a table of contents and a floating context.

3. • CommentRowNumber3.
   • CommentAuthorMike Shulman
   • CommentTimeMar 27th 2014
   • PermaLink
   Author: Mike Shulman
   Format: MarkdownItexIs the claim that this definition includes the differential-geometric notion of twisted differential form? If so, we should explain why; otherwise we should have at least a hatnote mentioning the other meaning.

   Is the claim that this definition includes the differential-geometric notion of twisted differential form? If so, we should explain why; otherwise we should have at least a hatnote mentioning the other meaning.

4. • CommentRowNumber4.
   • CommentAuthorJon Beardsley
   • CommentTimeMar 28th 2014
   • PermaLink
   Author: Jon Beardsley
   Format: MarkdownItexHey Mike, Sorry, so yeah, I was thinking about this. I mean, I guess the two are just sort of, analogous? Both are classified by cocycles. I'm unfortunately sort of biased, since I don't really know the differential geometric notion very well. I suppose the claim would be that if we think of a module $M$ as an $\mathcal{O}_{Spec(A)}$-module $F$ on an affine scheme $Spec(A)$, then we can get twisted forms of $M$ by looking at twisted forms of $F$ (where we twist by line bundles, necessarily, since the thing must still locally look like $F$) and taking global sections. One problem is that this notion is kind of... really spread out, and has acquired several different names in several different contexts. Part of me would like to codify it all top down from the standpoint of nonabelian cohomology, and then point to these other things as special cases.

   Hey Mike,

   Sorry, so yeah, I was thinking about this. I mean, I guess the two are just sort of, analogous? Both are classified by cocycles. I’m unfortunately sort of biased, since I don’t really know the differential geometric notion very well. I suppose the claim would be that if we think of a module $M$ as an $\mathcal{O}_{Spec(A)}$-module $F$ on an affine scheme $Spec(A)$, then we can get twisted forms of $M$ by looking at twisted forms of $F$ (where we twist by line bundles, necessarily, since the thing must still locally look like $F$) and taking global sections.

   One problem is that this notion is kind of… really spread out, and has acquired several different names in several different contexts. Part of me would like to codify it all top down from the standpoint of nonabelian cohomology, and then point to these other things as special cases.

5. • CommentRowNumber5.
   • CommentAuthorJon Beardsley
   • CommentTimeMar 28th 2014
   • PermaLink
   Author: Jon Beardsley
   Format: MarkdownItexI'm editing it now to try to make it more general. By the way - what's a hatnote?

   I’m editing it now to try to make it more general. By the way - what’s a hatnote?

6. • CommentRowNumber6.
   • CommentAuthorMike Shulman
   • CommentTimeMar 28th 2014
   • (edited Mar 28th 2014)
   • PermaLink
   Author: Mike Shulman
   Format: MarkdownItex<http://en.wikipedia.org/wiki/Wikipedia:Hatnote>

   http://en.wikipedia.org/wiki/Wikipedia:Hatnote

7. • CommentRowNumber7.
   • CommentAuthorTobyBartels
   • CommentTimeMar 29th 2014
   • PermaLink
   Author: TobyBartels
   Format: MarkdownItexNow [[twisted form]] links to [[differential form#twisted]].

   Now twisted form links to differential form#twisted.

8. • CommentRowNumber8.
   • CommentAuthorFinnLawler
   • CommentTimeApr 2nd 2014
   • PermaLink
   Author: FinnLawler
   Format: MarkdownItex> Part of me would like to codify it all top down from the standpoint of nonabelian cohomology, and then point to these other things as special cases. This is decidedly not my area, but there has been some work on descent, torsors, cohomology etc. done at a fairly high level of abstraction, which seems as though it should be relevant; you may well know about it already, but if not here are a couple of references: * Street. _Characterization of bicategories of stacks_, LNM 962, 1982. * Janelidze, Schumacher, Street. _Galois theory in variable categories_, Applied Categorical Structures 1, 1993. The introductions and bibliographies of these have some good references to other work too.

   Part of me would like to codify it all top down from the standpoint of nonabelian cohomology, and then point to these other things as special cases.

   This is decidedly not my area, but there has been some work on descent, torsors, cohomology etc. done at a fairly high level of abstraction, which seems as though it should be relevant; you may well know about it already, but if not here are a couple of references:

   • Street. Characterization of bicategories of stacks, LNM 962, 1982.

   • Janelidze, Schumacher, Street. Galois theory in variable categories, Applied Categorical Structures 1, 1993.

   The introductions and bibliographies of these have some good references to other work too.