What is the Concept of Zero Double Trace in Tensor Analysis?

  • Thread starter Thread starter kauw7
  • Start date Start date
  • Tags Tags
    Trace
kauw7
Messages
2
Reaction score
0
Hello all,

I have recently encountered a tensor which is said to have the property "zero double trace". I am unfamiliar with the concept of a double trace and was hoping someone here could help.

Thanks
 
Physics news on Phys.org
What kind of tensor is it? Does it have a specific name?
How many indices does it have?
 
Hi thanks for the reply.

I don't think it has a proper name, but it has all the symmetries of the Riemann tensor. It is rank four and the indices run from 0:3.

Thanks
 
Iterated contraction

This can only mean, I think, an iterated contraction, e.g.
<br /> {P^{ab}}_{cd} <br /> \mapsto {Q^a}_d = {P^{am}}_{md} <br /> \mapsto R = {Q^m}_m<br />
But as you can see by permuting the indices, there are in general many such double contractions!

Incidently, the obvious guess is that you are reading about the Weyl tensor, aka conformal curvature tensor, which shares all the symmetries of the Riemann tensor but which is also "completely traceless". Did you see the concurrent thread on that object?
 
Is this what everyone else thinks the mysterious 'double trace' must be? I came across it in a paper on the standard model extension by A. Kostelecky and M. Mewes...

Does anyone have any other ideas about what they could be talking about?
 

Thread 'Trouble understanding an online solution to an exercise in Dummit & Foote'

##\textbf{Exercise 10}:## I came across the following solution online: Questions: 1. When the author states in "that ring (not sure if he is referring to ##R## or ##R/\mathfrak{p}##, but I am guessing the later) ##x_n x_{n+1}=0## for all odd $n$ and ##x_{n+1}## is invertible, so that ##x_n=0##" 2. How does ##x_nx_{n+1}=0## implies that ##x_{n+1}## is invertible and ##x_n=0##. I mean if the quotient ring ##R/\mathfrak{p}## is an integral domain, and ##x_{n+1}## is invertible then...
View full post »

Thread 'Questions about non existence of GCDs vs (coimages, cokernels)'

The following are taken from the two sources, 1) from this online page and the book An Introduction to Module Theory by: Ibrahim Assem, Flavio U. Coelho. In the Abelian Categories chapter in the module theory text on page 157, right after presenting IV.2.21 Definition, the authors states "Image and coimage may or may not exist, but if they do, then they are unique up to isomorphism (because so are kernels and cokernels). Also in the reference url page above, the authors present two...
View full post »

Thread 'Decomposition into irreps of compact Lie group'

When decomposing a representation ##\rho## of a finite group ##G## into irreducible representations, we can find the number of times the representation contains a particular irrep ##\rho_0## through the character inner product $$ \langle \chi, \chi_0\rangle = \frac{1}{|G|} \sum_{g\in G} \chi(g) \chi_0(g)^*$$ where ##\chi## and ##\chi_0## are the characters of ##\rho## and ##\rho_0##, respectively. Since all group elements in the same conjugacy class have the same characters, this may be...
View full post »

Similar threads

I What is the definition of trace for n-indexed tensor in group theory?
Replies
1
Views
3K
A Trace of the inverse of matrix products
Replies
2
Views
2K
I What is the Trace of a Fourth Rank Tensor in Index Notation?
Replies
4
Views
3K
A Why are we allowed to use the trace cyclicity here?
Replies
2
Views
1K
How to calculate a trace of a tensor?
Replies
2
Views
3K
Matrix trace minimization and zeros
Replies
3
Views
2K
Could our body deal with trace amounts of unknown chemicals?
Replies
3
Views
1K
Is My SDP Formulation to Minimize trace((G^TG)^-1) Correct?
Replies
1
Views
1K
MHB Zero-Trace Symmetric Matrix is Orthogonally Similar to A Zero-Diagonal Matrix.
Replies
5
Views
5K
I What is the Minkowski metric tensor's trace?
Replies
3
Views
8K

Hot Threads

Recent Insights

Back
Top