* more dagger problems
@ 2007-03-07 4:44 John Baez
0 siblings, 0 replies; 2+ messages in thread
From: John Baez @ 2007-03-07 4:44 UTC (permalink / raw)
To: categories
Juergen Koslowski wrote:
>This bicategorical view also clarifies that the star operation is an
>involution on 1-cells, while dagger is an involution on 2-cells.
>While the name ``{1,2}-involutive bicategory'' may be adequate,
>``{1,2}-involutive monoidal category'' is quite a mouthful.
I call them "monoidal categories with duals". If you only have
your "star", I often call them "monoidal categories with duals
for objects". If you only have your "dagger", I often call them
"monoidal categories with duals for morphisms".
They're a special case of a fascinating notion, "k-tuply monoidal
n-categories with duals", which so far only been precisely defined
for low values of n and k. The "tangle hypothesis" proposes a nice
topological description of the free k-tuply monoidal n-category with
duals on one object. Here are some places to read about this stuff:
John Baez and James Dolan, Higher-dimensional algebra and topological
quantum field theory, http://arxiv.org/abs/q-alg/9503002
John Baez and Laurel Langford, Higher-dimensional algebra IV: 2-Tangles,
http://arxiv.org/abs/math.QA/9811139
John Baez, Quantum computation and symmetric monoidal categories,
http://golem.ph.utexas.edu/category/2006/08/quantum_computation_and_symmet.html
One can also listen to lectures:
Eugenia Cheng, n-categories with duals and TQFT,
http://www.fields.utoronto.ca/audio/#crs-ncategories
The cases that have been precisely defined include:
n = 1, k = 0 categories with duals
n = 1, k = 1 monoidal categories with duals
n = 1, k = 2 braided monoidal categories with duals
n = 1, k = 3 symmetric monoidal categories with duals
n = 2, k = 0 weak 2-categories with duals
n = 2, k = 1 semistrict monoidal 2-categories with duals
n = 2, k = 2 semistrict braided monoidal 2-categories with duals
Here "weak 2-categories" means "bicategories" and "semistrict monoidal
2-categories" means "one-object Gray-categories".
For n = 1 we have up to 2 layers of duality (your "stars" and "daggers"),
while for n = 2 we have up to 3.
Best,
jb
^ permalink raw reply [flat|nested] 2+ messages in thread
* more dagger problems
@ 2007-03-07 1:21 Juergen Koslowski
0 siblings, 0 replies; 2+ messages in thread
From: Juergen Koslowski @ 2007-03-07 1:21 UTC (permalink / raw)
To: categories
Besides their funny name, dagger-compact categories present, or
rather expose, another terminological dilemma: what's an adjoint?
Although the notion of dagger-compact category (dcc) was originally
defined for symmetric monoidal categories, let's try to makes sense of
it without symmetry. In fact, this should work in a (linear)
bicategory or even a poly-bicategory.
- The dagger operation flips 2-cells vertically (in view of the
picture calculus). f^{\dagger} is called the
``adjoint'' of f, which matches the terminology of functional
analysis and physics. In case of a linear bicategory, the two 1-cell
compositions \tensor for the domain 1-cells and \par for the
codomain 1-cells get interchanged as well.
- The definition of a dcc also calls for ``duals'' A^* of 1-cells,
which in graphical terms flips 1-cells horizontally.
- Finally, there are``units'' (or ``Bell states'' in physics terms)
\eta_A: I_Y ==> A^*\tensor A, when A:X --> Y.
The axioms for a symmetric dcc turn the ``duals'' turn into
categorical adjoints with unit \eta_A and counit (\eta_A)^{\dagger}
(the ``adjoint'' of the unit). This seems to require symmetry, but it
really does not. The correct interpretation of A^* should be that of
a 2-sided (categorical) adjoint for A (linear adjoint in the case of
poly-bicategories), i.e., A^* -| A -| A^*. Hence there are 2
categorical adjunctions and hence 2 units, besides \eta_A also
\eta_A^*: I_X ==> A\tensor A^*. Without symmetry (\eta_A)^{\dagger}
cannot be the counit for the adjunction A^* -| A, but for the other
adjunction A -| A^*. Unfortunately, the functional analysis
terminology would refer to the counit of the second adjunction as the
adjoint of the first adjunction's unit, which I find rather confusing.
This bicategorical view also clarifies that the star operation is an
involution on 1-cells, while dagger is an involution on 2-cells.
While the name ``{1,2}-involutive bicategory'' may be adequate,
``{1,2}-involutive monoidal category'' is quite a mouthful.
I seem to recall reading not too long ago that Kahn did _not_ pursue
an (often rumoured) analogy with functional analysis when introducing
(categorical) adjunctions, and here we see the actual mismatch.
-- Jürgen
--
Juergen Koslowski If I don't see you no more on this world
ITI, TU Braunschweig I'll meet you on the next one
koslowj@iti.cs.tu-bs.de and don't be late!
http://www.iti.cs.tu-bs.de/~koslowj Jimi Hendrix (Voodoo Child, SR)
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