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R-algebroid
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(Definition)
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Definition 0.1 If
 is a groupoid (for example, regarded as a category with all morphisms invertible) then we can construct an $R$ -algebroid,
 as follows. Let us consider first a module over a ring $R$ , also called a $R$ -module, that is, a module $M_R$ that takes its coefficients in a ring $R$ . Then, the object set of
 is the same as that of
 and
 is the free $R$ -module on the set
 , with composition given by the usual bilinear rule, extending the composition of
 .
Definition 0.2 Alternatively, one can define
 to be the set of functions
 with finite support, and then one defines the convolution product as follows:
\begin{equation} (f*g)(z)= \sum \{(fx)(gy)\mid z=x\circ y \} ~. \end{equation}
Remark 0.1 As it is very well known, only the second construction is natural for the topological case, when one needs to replace the general concept of `function' by the topological-analytical concept of ` continuous function with compact support' (or alternatively, with ` locally compact support') for all quantum field theory ( QFT) extended symmetry sectors; in this case, one has that $R \cong \mathbb{C}$ . The point made here is that to carry out the usual construction and end up with only an algebra rather than an algebroid, is a procedure analogous to replacing a groupoid
 by a semigroup $G'=G\cup \{0\}$ in which the compositions not defined in $G$ are defined to be $0$ in $G'$ . We argue that this construction removes the main advantage of groupoids, namely the presence of the spatial component given by the set of objects of the groupoid.
More generally, a R-category is similarly defined as an extension to this R-algebroid concept.
- 1
- R. Brown and G. H. Mosa: Double algebroids and crossed modules of algebroids, University of Wales-Bangor, Maths Preprint, 1986.
- 2
- G. H. Mosa: Higher dimensional algebroids and Crossed complexes, PhD thesis, University of Wales, Bangor, (1986). (supervised by R. Brown).
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"R-algebroid" is owned by bci1.
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Cross-references: extension, component, groupoids, semigroup, algebra, point, sectors, symmetry, QFT, quantum field theory, locally compact, support, compact, continuous function, finite support, functions, bilinear, composition, object, coefficients, ring, module, invertible, morphisms, category, groupoid
There are 4 references to this entry.
This is version 21 of R-algebroid, born on 2008-07-19, modified 2009-02-03.
Object id is 10827, canonical name is RAlgebroid.
Accessed 1262 times total.
Classification:
| AMS MSC: | 81R50 (Quantum theory :: Groups and algebras in quantum theory :: Quantum groups and related algebraic methods) | | | 81R10 (Quantum theory :: Groups and algebras in quantum theory :: Infinite-dimensional groups and algebras motivated by physics, including Virasoro, Kac-Moody, $W$-algebras and other current alg) | | | 81T05 (Quantum theory :: Quantum field theory; related classical field theories :: Axiomatic quantum field theory; operator algebras) | | | 81P05 (Quantum theory :: Axiomatics, foundations, philosophy :: General and philosophical) | | | 81T10 (Quantum theory :: Quantum field theory; related classical field theories :: Model quantum field theories) |
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Pending Errata and Addenda
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