PlanetPhysics/Non Abelian Theory

A non-Abelian theory is one that does not satisfy one, several, or all of the axioms of an Abelian theory, such as, for example, those for an Abelian category theory.

Examples[edit | edit source]

ETAC and ETAS axiom interpretations that do not satisfy--in addition to the ETAC or ETAS axioms-- the ${\displaystyle Ab1}$ to ${\displaystyle Ab6}$ axioms for an abelian category are all examples on non-Abelian categories; a more detailed list is also presented next.

In a general sense, any Abelian category (or abelian category ) can be regarded as a `good' model for the category of Abelian, or commutative, groups. Furthermore, in an Abelian category ${\displaystyle Ab}$ every class, or set, of morphisms ${\displaystyle Hom_{Ab}(-,-)}$ forms an Abelian (or commutative) group. There are several strict definitions of Abelian categories involving 3, 4 or up to 6 axioms defining the Abelian character of a category. To illustrate non-Abelian theories it is useful to consider non-Abelian structures so that specific properties determined by the non-Abelian set of axioms become `transparent' in terms of the properties of objects for example for concrete categories that have objects; such examples are presented separately as non-Abelian structures .

Further examples of non-Abelian theories[edit | edit source]

The following is only a short list of non-Abelian theories:

1. non-Abelian algebraic topology, including also non-Abelian homological algebra;

non-Abelian algebraic topology overview and R. Brown 2008 preprint, (^[1]).\\ (See also the [2008 http://planetmath.org/?op=getobj&from=lec&id=75 recent book exposition] with the title "Nonabelian Algebraic Topology" vol. 1 by Brown and Sivera,(respectively, vol. 2 with Higgins, in preparation ).

1. Non-Abelian Quantum Algebraic Topology;

1. Non-Abelian gauge field theory (in Quantum Physics);

1. noncommutative geometry;

1. The axiomatic theory of supercategories (ETAS);

1. higher dimensional algebra (HDA)
2. ${\displaystyle LM_{n}}$ Logic algebras;

1. Non-Abelian categorical ontology (^[2]).

Remarks[edit | edit source]

The following alternative definition by Barry Mitchell of an Abelian category should also be mentioned as "an exact additive category with finite products." .

He also published in his textbook the following theorem: (Theorem 20.1 , on p.33 of Barry Mitchell in "Theory of Catgeories", 1965, Academic Press: New York and London):

\begin{theorem} The following statements are equivalent :

• (a) ${\displaystyle Ab}$ is an abelian category;
• (b) ${\displaystyle Ab}$ has kernels, cokernels, finite products, finite coproducts, and is both normal and conormal;
• (c) ${\displaystyle Ab}$ has pushouts and pullbacks and is both normal and conormal.

\end{theorem}

All Sources[edit | edit source]

^{[3] [4] [2]}

References[edit | edit source]

1. ↑ Cite error: Invalid <ref> tag; no text was provided for refs named RBetal2k7,RB2k8
2. ↑ ^{2.0 2.1} I. C. Baianu, R. Brown and J. F. Glazebrook. 2007, A Non--Abelian Categorical Ontology and Higher Dimensional Algebra of Spacetimes and Quantum Gravity., Axiomathes , 17 : 353-408.
3. ↑ R. Brown et al. 2008. "Non-Abelian Algebraic Topology" . vols. 1 and 2. (Preprint ).
4. ↑ R. Brown. 2008. Higher Dimensional Algebra Preprint as pdf and ps docs. at ${\displaystyle arXiv:math/0212274v6[math.AT]}$