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text/comparing_defs.tex
author kevin@6e1638ff-ae45-0410-89bd-df963105f760
Tue, 18 Aug 2009 19:27:44 +0000
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%!TEX root = ../blob1.tex
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\section{Comparing $n$-category definitions}












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\label{sec:comparing-defs}












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In this appendix we relate the ``topological" category definitions of Section \ref{sec:ncats}












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to more traditional definitions, for $n=1$ and 2.












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\subsection{Plain 1-categories}












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Given a topological 1-category $\cC$, we construct a traditional 1-category $C$.












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(This is quite straightforward, but we include the details for the sake of completeness and












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to shed some light on the $n=2$ case.)












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Let the objects of $C$ be $C^0 \deq \cC(B^0)$ and the morphisms of $C$ be $C^1 \deq \cC(B^1)$, 












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where $B^k$ denotes the standard $k$-ball.












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The boundary and restriction maps of $\cC$ give domain and range maps from $C^1$ to $C^0$.












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Choose a homeomorphism $B^1\cup_{pt}B^1 \to B^1$.












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Define composition in $C$ to be the induced map $C^1\times C^1 \to C^1$ (defined only when range and domain agree).












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By isotopy invariance in $C$, any other choice of homeomorphism gives the same composition rule.












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Given $a\in C^0$, define $\id_a \deq a\times B^1$.












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By extended isotopy invariance in $\cC$, this has the expected properties of an identity morphism.












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\nn{(slash)id seems to rendering a a boldface 1 --- is this what we want?}












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\medskip












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For 1-categories based on oriented manifolds, there is no additional structure.












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For 1-categories based on unoriented manifolds, there is a map $*:C^1\to C^1$












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coming from $\cC$ applied to an orientation-reversing homeomorphism (unique up to isotopy) 












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from $B^1$ to itself.












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Topological properties of this homeomorphism imply that 












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$a^{**} = a$ (* is order 2), * reverses domain and range, and $(ab)^* = b^*a^*$












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(* is an anti-automorphism).












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For 1-categories based on Spin manifolds,












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the the nontrivial spin homeomorphism from $B^1$ to itself which covers the identity












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gives an order 2 automorphism of $C^1$.












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For 1-categories based on $\text{Pin}_-$ manifolds,












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we have an order 4 antiautomorphism of $C^1$.












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For 1-categories based on $\text{Pin}_+$ manifolds,












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we have an order 2 antiautomorphism and also an order 2 automorphism of $C^1$,












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and these two maps commute with each other.












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\nn{need to also consider automorphisms of $B^0$ / objects}












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\medskip












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In the other direction, given a traditional 1-category $C$












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(with objects $C^0$ and morphisms $C^1$) we will construct a topological












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1-category $\cC$.












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If $X$ is a 0-ball (point), let $\cC(X) \deq C^0$.












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If $S$ is a 0-sphere, let $\cC(S) \deq C^0\times C^0$.












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If $X$ is a 1-ball, let $\cC(X) \deq C^1$.












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Homeomorphisms isotopic to the identity act trivially.












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If $C$ has extra structure (e.g.\ it's a *-1-category), we use this structure












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to define the action of homeomorphisms not isotopic to the identity












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(and get, e.g., an unoriented topological 1-category).












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The domain and range maps of $C$ determine the boundary and restriction maps of $\cC$.












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Gluing maps for $\cC$ are determined my composition of morphisms in $C$.












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For $X$ a 0-ball, $D$ a 1-ball and $a\in \cC(X)$, define the product morphism 












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$a\times D \deq \id_a$.












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It is not hard to verify that this has the desired properties.












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\medskip












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The compositions of the above two ``arrows" ($\cC\to C\to \cC$ and $C\to \cC\to C$) give back 












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more or less exactly the same thing we started with.  












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\nn{need better notation here}












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As we will see below, for $n>1$ the compositions yield a weaker sort of equivalence.












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\subsection{Plain 2-categories}












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blah












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\nn{...}












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\medskip












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\hrule












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\medskip












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\nn{to be continued...}












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\medskip















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