What is higher dimensional algebra? - MathOverflow most recent 30 from http://mathoverflow.net 2013-05-25T04:44:45Z http://mathoverflow.net/feeds/question/68235 http://www.creativecommons.org/licenses/by-nc/2.5/rdf http://mathoverflow.net/questions/68235/what-is-higher-dimensional-algebra What is higher dimensional algebra? Giorgio Mossa 2011-06-19T21:12:11Z 2011-06-21T21:51:38Z <p>Could anyone explain what higher dimensional algebra is?</p> <p>I tried to look on the web but I couldn't find a satisfactory definition, the ones that I found are too vague. What I'm looking for is a good definition of higher dimensional algebra, what it deals with and some references about the subject.</p> http://mathoverflow.net/questions/68235/what-is-higher-dimensional-algebra/68236#68236 Answer by Noah Snyder for What is higher dimensional algebra? Noah Snyder 2011-06-19T21:29:10Z 2011-06-19T21:29:10Z <p>Ordinary algebra (monoids and their linear cousins rings) involves an operation that's written on a line. That is, you can multiple on the left or on the right. It's 1-dimensional algebra.</p> <p>Higher dimensional algebra is algebra where it's more natural to write your operations on a higher dimensional manifold. For example, the Temperley-Lieb algebra is naturally 2-dimensional. You can multiple on the left, right, top, or bottom. Similarly Hopf algebras can be thought of as 2-dimensional, with the coproduct being related to multiplication in a different dimension.</p> <p>Asking for a rigorous definition of "higher dimensional algebra" is counterproductive. It's a subject, not a mathematical object. But one way of making it more precise would be to say that higher dimensional algebra is the study of n-categories. Again, I think that last sentence is misleading, but at least n-categories are something you can look up definitions of.</p> <p>A good place to start reading about higher dimensional algebra is going through back issues of this week in mathematical physics.</p> http://mathoverflow.net/questions/68235/what-is-higher-dimensional-algebra/68245#68245 Answer by André Henriques for What is higher dimensional algebra? André Henriques 2011-06-19T22:59:21Z 2011-06-19T22:59:21Z <p>I'll use this question as an opportunity to advertise a notion of "two-dimensional algebra" from my paper <a href="http://arxiv.org/pdf/0912.5307v2" rel="nofollow">http://arxiv.org/pdf/0912.5307v2</a>.</p> <p><b>Definition:</b><br> A <i>2-algebra</i> consists of a vector space $A$, two bilinear operations $$a,b\mapsto ab\qquad\qquad\qquad\text{and}\qquad\qquad\qquad a,b\mapsto\, \begin{matrix}\stackrel{\displaystyle a}{b}\end{matrix}$$ and three distinguished elements $1$, $v$, and $v^{-1}$, subject to the axioms<br> &bull; $\qquad 1a=a=a1$<br> &bull; $\qquad (ab)c=a(bc)$<br> &bull; $\qquad \begin{matrix}\stackrel{\displaystyle (ab)}{(cd)}\end{matrix} =\big(\begin{matrix}\stackrel{\displaystyle a}{c}\end{matrix}\big)\big(\begin{matrix}\stackrel{\displaystyle b}{d}\end{matrix}\big)$<br> &bull; $\qquad v\Big(\begin{matrix}(\begin{matrix}\stackrel{\displaystyle a}{b}\end{matrix})\\ c\end{matrix}\Big)v^{-1}=\Big( \begin{matrix}a\\ (\begin{matrix}\stackrel{\displaystyle b}{c}\end{matrix})\end{matrix}\Big)$<br> &bull; $\qquad vv=(\begin{matrix}\stackrel{\displaystyle 1}{v}\end{matrix})v(\begin{matrix}\stackrel{\displaystyle v}{1}\end{matrix})$<br> &bull; $\qquad vv^{-1}=v^{-1}v=1$<br></p> http://mathoverflow.net/questions/68235/what-is-higher-dimensional-algebra/68440#68440 Answer by Ronnie Brown for What is higher dimensional algebra? Ronnie Brown 2011-06-21T21:51:38Z 2011-06-21T21:51:38Z <p>My definition of higher dimensional algebra is that it is the study and application of algebraic theories with partial algebraic structures whose domains are defined by geometric conditions. I think the first study of such partial algebraic structures was in Higgins, P.~J. {Algebras with a scheme of operators}.Math. Nachr.} \textbf{27} (1963) 115--132.</p> <p>The intuitive idea is also: do mathematical formulae have to be confined to a line? Can we have and use formulae in 2 or 3 or many dimensions? and can this be useful? If so we can expect to need rewriting of such formulae, and indeed this exists and is useful. You can find many 2-dimensional rewrites in the new book Nonabelian algebraic topology' in press with the European Mathematical Society, and with a pdf (not the latest version yet) on my web site. (See for example the rotations in section 6.4.)</p> <p>Those who have read Flatland' will remember that the Linelanders had a rather limited existence! Can we really think that the brain works in one dimension only? </p> <p>I mention that the idea of all this occurred to me in 1965 when I thought that the proof I had written out many times for the van Kampen Theorem for the fundamental groupoid should generalise to higher dimensions, if one had the right gadgets, seen as higher homotopy groupoids. 9 years later: whoopee! (work with Chris Spencer and with Philip Higgins). Joint papers with Philip were published in 1978 and 1981. </p> <p>You can find presentations on some of these ideas on my preprint page, and I have even presented them to a conference on Theoretical Neuroscience in Delhi in 2003, which went down well! arXiv:math/0306223 </p> <p>For my purposes I have needed a cubical context, which is not commonly followed, but in which it was easier to conjecture and prove the theorems I was thinking of. But the definition above seems quite general, and allows for a melding of algebra and geometry. </p> <p>I also believe that Henry Whitehead's term `Combinatorial homotopy' and his actual work show he was thinking of generalising some methods of combinatorial group theory to higher dimensions. His notion of crossed module (1946) has proved an important feature of such ideas, and it later appeared in the key relations between them and 2-groups, and double groupoids. </p> <p>Ronnie</p>