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quadratic Jordan algebra
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(Derivation)
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Definition 1 Fix a commutative ring $R$ and an $R$ -modules $J$ and a quadratic map $U:J\rightarrow \End_R J$ . Then the triple $\langle J,U\rangle$ is a quadratic Jordan algebra if (denoting the evaluation of $U$ by $U_x$ for $x\in J$ )
- $U_{U_a b}=U_a U_b U_a$ for all $a,b\in J$ .
- The induced bilinear map $U_{a,b}:=U_{a+b}-U_a-U_b$ gives rise to an endomorphism $V_{a,b}$ on $J$ defined by $V_{a,b} x=U_{a,x}b$ which satisfies $$ U_a V_{b,a}=V_{a,b} U_a $$
- If $R\subseteq K$ is a commutative ring extension of $R$ then the extension $J_K:=K\otimes_R J$ with the extension $U_K:=1_K\otimes U$ , satisfies the first two axioms.
For a unital quadratic Jordan algebra we include the added assumption that there exist some $1\in J$ such that $U_1$ is the identity endomorphism of $J$ .
The concept of a quadratic Jordan algebra was developed by McCrimmon to introduce uniform methods in the study of Jordan algebras over characteristic 2. In a strict sense they are not algebras as they do not have a bilinear product; however, their connection to Jordan algebras motivates this terminology.
A common construction for Jordan algebras, so called special Jordan algebra, is by means of using a submodule of an associative algebra $A$ and defining the product as $$ a.b=\frac{1}{2}(ab+ba) $$ The $1/2$ is optional (and avoided in the analogous Lie bracket definitions $[a,b]=ab-ba$ ), in characteristic 2 we can opt to remove it. The result is the usual special Jordan product is also the usual Lie bracket, $a.b=ab+ba=ab-ba=[a,b]$ . So we can treat these algebras as Jordan or Lie algebras.
However, the axioms of an abstract Jordan algebra are insufficient to conclude that every Jordan algebra is special (indeed exceptional Jordan algebras called Albert algebras of dimension 27 exist and are not special Jordan algebras.) So general Jordan algebra over characteristic 2 may have different structure than a Lie algebra of characteristic 2. To make these algebras manageable, McCrimmon appealed to the quadratic definition given above.
Proposition 2 If $1/2\in K$ then a Jordan algebra over $K$ is a quadratic Jordan algebra where the quadratic map is given by $U_a=\{axa\}$ where $\{xyz\}$ is the Jordan triple product.
A bonus to this definition is that it highlights the fundamental tools in the study of Jordan algebras. For example, instead of using ideals of the Jordan product it is common to use quadratic ideals, for instance, in the definition of the solvable radical of a Jordan algebra.
Definition 3 A submodule $I$ of a quadratic Jordan algebra $J$ is an inner quadratic ideal, or simply an inner ideal if $U_I(J)\leq I$ , that is $U_i(x)\in I$ for all $i\in I$ , $x\in J$ .
A submodule $I$ of a quadratic Jordan algebra $J$ is an outer quadratic ideal, or a outer ideal if $U_J(I)\leq I$ , that is, $U_x(i)\in I$ for all $i\in I$ , $x\in J$ .
If the quadratic Jordan algebra is derived from a Jordan algebra then $U_i(x)=\{ixi\}$ So we are asking for $\{iJi\}\leq I$ , and in a special Jordan algebra we can further express this as $iJi\leq I$ .
- 1
- Jacobson, Nathan Structure Theory of Jordan Algebras, The University of Arkansas Lecture Notes in Mathematics, vol. 5, Fayetteville, 1981.
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"quadratic Jordan algebra" is owned by Algeboy.
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See Also: quadratic map
| Also defines: |
quadratic Jordan algebra, inner ideal, outer ideal, quadratic ideal |
This object's parent.
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Cross-references: outer, inner, radical, solvable, Jordan triple product, structure, dimension, exceptional Jordan algebras, Lie algebras, definitions, Lie bracket, optional, algebra, associative, submodule, special Jordan algebra, connection, product, bilinear, algebras, strict, characteristic, Jordan algebras, identity, unital, axioms, extension, endomorphism, bilinear map, induced, quadratic map, commutative ring, fix
There are 2 references to this entry.
This is version 3 of quadratic Jordan algebra, born on 2006-12-14, modified 2006-12-14.
Object id is 8626, canonical name is QuadraticJordanAlgebra.
Accessed 3422 times total.
Classification:
| AMS MSC: | 17C05 (Nonassociative rings and algebras :: Jordan algebras :: Identities and free Jordan structures) |
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Pending Errata and Addenda
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