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.
   • CommentAuthorjim_stasheff
   • CommentTimeSep 21st 2013
   • PermaLink
   Author: jim_stasheff
   Format: TextWhere is there written a twisted simplectic form like pDq whee D is a covariant rather than exterior derivative?

   Where is there written a twisted simplectic form like
   pDq whee D is a covariant rather than exterior derivative?
2. • CommentRowNumber2.
   • CommentAuthorBruce Bartlett
   • CommentTimeSep 21st 2013
   • PermaLink
   Author: Bruce Bartlett
   Format: MarkdownItexHi - I'd imagine something like this arises when thinking about electromagnetism (more generally, the Yang-Mills equations) from the symplectic point of view? I'm thinking of chapter III "Motion in a Yang-Mills field and the principle of general covariance" in Guillemin and Sternberg, Symplectic techniques in physics.

   Hi - I’d imagine something like this arises when thinking about electromagnetism (more generally, the Yang-Mills equations) from the symplectic point of view? I’m thinking of chapter III “Motion in a Yang-Mills field and the principle of general covariance” in Guillemin and Sternberg, Symplectic techniques in physics.

3. • CommentRowNumber3.
   • CommentAuthorjim_stasheff
   • CommentTimeSep 22nd 2013
   • PermaLink
   Author: jim_stasheff
   Format: TextThat sounds quite likely, but I don't have G&S here. Anyone with a copy who would check it out or a later arXiv reference I could follow?

   That sounds quite likely, but I don't have G&S here. Anyone with a copy who would check it out or
   a later arXiv reference I could follow?
4. • CommentRowNumber4.
   • CommentAuthorUrs
   • CommentTimeSep 22nd 2013
   • (edited Sep 24th 2013)
   • PermaLink
   Author: Urs
   Format: MarkdownItexJim, what you write down in #1 is a 1-form. I suspect you want that to be the analog of a symplectic potential, not of a symplectic 2-form. So what's the form of a "twisted symplectic 2-form" that you have in mind? I gather you are imaginging an affine connection and a covariant derivative. Now you need some invariant bilinear pairing $\langle -,-\rangle$ to produce a 2-form of the schematic form $$ \langle D q \wedge D p\rangle $$ I suppose. In this form this immediately reminds one of the symplectic form on the phase space of Chern-Simons theory (e.g. [here](http://ncatlab.org/nlab/show/Chern-Simons%20theory#CovariantPhaseSpace)). That de-transgresses to a 3-plectic form on the moduli of $G$-principal connections, and that does involve a covariant derivative of the above form. But I can't tell if this is going in the direction that you are after. Maybe you could give more details on what you have in mind.

   Jim,

   what you write down in #1 is a 1-form. I suspect you want that to be the analog of a symplectic potential, not of a symplectic 2-form.

   So what’s the form of a “twisted symplectic 2-form” that you have in mind? I gather you are imaginging an affine connection and a covariant derivative. Now you need some invariant bilinear pairing $\langle -,-\rangle$ to produce a 2-form of the schematic form

   $$\langle D q \wedge D p\rangle$$

   I suppose. In this form this immediately reminds one of the symplectic form on the phase space of Chern-Simons theory (e.g. here). That de-transgresses to a 3-plectic form on the moduli of $G$-principal connections, and that does involve a covariant derivative of the above form.

   But I can’t tell if this is going in the direction that you are after. Maybe you could give more details on what you have in mind.

5. • CommentRowNumber5.
   • CommentAuthorjim_stasheff
   • CommentTimeSep 23rd 2013
   • PermaLink
   Author: jim_stasheff
   Format: TextYes, of the schematic form ⟨Dq∧Dp⟩ where does such appear in the litt? sorry for confusing the potential with the form I still don't speak this lingo fluently

   Yes, of the schematic form
   
   ⟨Dq∧Dp⟩
   
   where does such appear in the litt?
   sorry for confusing the potential with the form
   I still don't speak this lingo fluently
6. • CommentRowNumber6.
   • CommentAuthorUrs
   • CommentTimeSep 24th 2013
   • (edited Sep 24th 2013)
   • PermaLink
   Author: Urs
   Format: MarkdownItexHard to say where this appears, since we might still have to say better what "this" is. By Darboux's theorem, an ordinary symplectic form is guaraneteed to locally look like $\mathbf{d}q^i \wedge \mathbf{d}p_i$, so it doesn't appear there. The example of Chern-Simons theory which I mentioned is not an example of the kind you want? So I am not sure. But can you maybe say more in detail what you are after? Ar you looking at a hermitean rank $2n$ vector bundle with affine connection $D$?

   Hard to say where this appears, since we might still have to say better what “this” is.

   By Darboux’s theorem, an ordinary symplectic form is guaraneteed to locally look like $\mathbf{d}q^i \wedge \mathbf{d}p_i$, so it doesn’t appear there.

   The example of Chern-Simons theory which I mentioned is not an example of the kind you want?

   So I am not sure. But can you maybe say more in detail what you are after? Ar you looking at a hermitean rank $2n$ vector bundle with affine connection $D$?

7. • CommentRowNumber7.
   • CommentAuthorUrs
   • CommentTimeSep 24th 2013
   • (edited Sep 24th 2013)
   • PermaLink
   Author: Urs
   Format: MarkdownItexIn the latter case, if you have a hermitean rank-$2n$ vector bundle with connection $D$, then for $\phi$ a section, the expression $\langle D \phi \wedge D \phi\rangle$ is the Lagrangian for a "topological Higgs-like field" $\phi$. It would be the actual kinetic Lagrangian if there is also a (pseudo-)Riemannian structure on the base space and you'd consider $\langle D \phi \wedge \star D \phi\rangle$, whith $\star$ the corresponding Hodge-operator.

   In the latter case, if you have a hermitean rank-$2n$ vector bundle with connection $D$, then for $\phi$ a section, the expression $\langle D \phi \wedge D \phi\rangle$ is the Lagrangian for a “topological Higgs-like field” $\phi$. It would be the actual kinetic Lagrangian if there is also a (pseudo-)Riemannian structure on the base space and you’d consider $\langle D \phi \wedge \star D \phi\rangle$, whith $\star$ the corresponding Hodge-operator.