Talk:Compact closed category
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trace
[edit]The definition here is not the usual definition of trace. Trace of f:A --> A should be a morphism I to I, where I is the unit for the monoidal structure. Think in Vect, where Vect(k,k) \cong k. Then tr(f) = e_A c (f # 1) n_A, where n and e are the coevaluation and evaluation maps, c is the braiding or symmetry, and "#" is the tensor product. This gives the usual notion of trace.
For traces in categories that are not compact, you need a pivotal structure.
Also, adjoint are of course only defined for morphisms. In order to say that an object is a left adjoint, you need to mention that you are looking at a monoidal category as a one-object bicategory. There is obviously no need for that, because you can define a left dual as you do.
Should say, adjoints are defined for functors, so if you want to say A^* is the left adjoint for A then it is better to say A^* \otimes - is the left adjoint of A \otimes -. Or indeed, explain the one object bicategory version. —Preceding unsigned comment added by 60.241.132.115 (talk) 11:12, 6 December 2007 (UTC)
Compact closed vs. Rigid
[edit]As someone pointed out on the rigid category page, these two articles may be referring to the same thing. It seems to me that they are, and they should be merged.
I see two small differences:
- the condition that the monoidal category be symmetric in the compact closed article.
- the definition of a dual is different: for the rigid article, a dual is merely the internal hom [X, 1], whereas in the compact closed article, a dual also includes the morphisms to the tensor product.
A closer look at references should help. Perhaps there are two conventions current for the definition of a dual, in which case they both need to be acknowledged.
Unique to the rigid article:
- an alternative definition of a dual
- Citation of the source of the definition of rigidity
- Note that internal hom's exist in a rigid category
Unique to the compact category article:
- Citation of original(?) source of definition of compact closed
- Motivation for definition
- Examples
There are also a few unique comments in both. The rest needs to be merged. Expz (talk) 13:35, 15 December 2009 (UTC)
- The rigid article now has a section stating this: I quote:
- Alternative Terminology A monoidal category where every object has a left (resp. right) dual is also sometimes called a left (resp. right) autonomous category. A monoidal category where every object has both a left and a right dual is sometimes called an autonomous category. An autonomous category that is also symmetric is called a compact closed category.
- So, no merge. linas (talk) 02:15, 25 August 2012 (UTC)
Unit introductions seems reversed
[edit]"where ρ, λ are the introduction of the unit on the left and right, respectively, and is the associator"
This seems backwards, its the inverses of ρ, λ that to the introductions, in other sources, and to cause the equations to make sense. Not being a mathematician myself, I'll leave this as a comment rather than edit the article now, better if an actual mathematician does that. AveryDAndrews (talk) 22:22, 27 August 2024 (UTC)