Talk:BRST formalism
 | This article was nominated for deletion on 16 October 2010 (UTC). The result of the discussion was merge to BRST quantization. |
 | This redirect does not require a rating on Wikipedia's content assessment scale. It is of interest to the following WikiProjects: | |||||||
| ||||||||
.jpg){kind=small}
Untitled section
[edit]This article is both extremely technical and utterly confusing. Bodera 21:33, 3 November 2005 (UTC)
However, it is far better than most mathematical or physical articles, sinse it can be useful for professional :)
Not really -- I am a professional theoretical physicist and I know what BRST symmetry is in the case of gauge theories, but this article is not written in a particularly useful way. 142.3.164.195 17:33, 2 March 2006 (UTC)
- Yes, this article needs a total re-write. linas 00:43, 3 March 2006 (UTC)
- There's a draft of a new exposition at BRST Quantization. I'm not a professional theoretical physicist, so it may contain howlers; but I'm at least attempting to make connections to functional quantization and differential geometry on fiber bundles. Michael K. Edwards 20:41, 30 August 2006 (UTC)
Page should be totally re-written
[edit]This page is - even to an expert and Ph.D. in theoretical physics - completely confusing and quite misleading. Instead, I would organize the text as follows: 1. to understand the BV formalism you need to introduce the concept of cohomology. An operator Q with Q^2=0 has an image Im(Q) which is a subset of the kernel ker(Q), since if a = Q(b) then Q(a) =Q^2(b)=0. In this case you can define a cohomology of Q, or H(Q). An example is the de Rham cohomology of the operator d. 2. Now, the central idea of the BRST construction is to replace the original gauge symmetry by the BRST symmetry s, which is still present even after one has fixed the gauge. The BRST symmetry is nilpotent, s^2=0 and you can define the cohomology H(s). 3. The BRST transformation of any field, F, is then written in terms of an anti-bracket, sF =(S,F) - here S is the generating function for the BRST transformation, or the generalized action. 4. Introduce the master equation, (S,S) =0; observables of the theory are identified with the zero'th cohomology of s: H^0(s) = {observables}.
Article Cleanup Co-Ordination Point
[edit]| Cleanup Co-ordination | |
|---|---|
|
This article has recently been tagged as requiring cleanup to meet Wikipedia's quality standards. The article may have been flagged as needing cleanup because it has been suggested that:
For a full list of possible problems see Wikipedia:Manual of Style. As part of the cleanup process, the automated bot PocKleanBot has generated this notice as a focus of cleanup efforts, and also contacted several contributing editors of the article to bring their attention to the problem. You should use this section to discuss possible resolution of the problem and achieve consensus for action. Only when there is a consensus that the article is now cleaned up should you then de-list it by deleting the cleanup tag from the article, this causes the article to drop off the monthly cleanup-needed list page. |
Discussion[edit]I believe this article must be merged with BRST Quantization. The title "BRST formalism" would be appropriate to represent its universal nature, however the article in BRST Quantization is much more well written. I suggest that we should replace the contents of "BRST formalism" article with the contents of "BRST quantization" and redirect the "BRST Quantization" to here. | |
Confusing
[edit]Dear everyone, this article is confusing. Why doesn't someone start from the scratch? Or more precisely from the oldest version of this file I wrote? It seems to me that whatever was added later is either confusing, irrelevant, or downright nonsense. I would recommend the 1st version instead of the present one. --Lumidek 12:08, 15 June 2007 (UTC)
WikiProject class rating
[edit]This article was automatically assessed because at least one WikiProject had rated the article as start, and the rating on other projects was brought up to start class. BetacommandBot 09:44, 10 November 2007 (UTC)
Comment moved from article
[edit]{Which antiderivation is it? Is it the Lie Algebra acting on B AND b?} —Preceding unsigned comment added by YouRang? (talk • contribs)
- I found the above comment added to the article. I've moved it here. Michael Slone (talk) 17:36, 15 June 2008 (UTC)