Coherent algebra
A coherent algebra is an algebra of complex square matrices that is closed under ordinary matrix multiplication, Schur product, transposition, and contains both the identity matrix and the all-ones matrix .[1]
Definitions
A subspace of is said to be a coherent algebra of order if:
- .
- for all .
- and for all .
A coherent algebra is said to be:
- Homogeneous if every matrix in has a constant diagonal.
- Commutative if is commutative with respect to ordinary matrix multiplication.
- Symmetric if every matrix in is symmetric.
The set of Schur-primitive matrices in a coherent algebra is defined as .
Dually, the set of primitive matrices in a coherent algebra is defined as .
Examples
- The centralizer of a group of permutation matrices is a coherent algebra, i.e. is a coherent algebra of order if for a group of permutation matrices. Additionally, the centralizer of the group of permutation matrices representing the automorphism group of a graph is homogeneous if and only if is vertex-transitive.[2]
- The span of the set of matrices relating pairs of elements lying in the same orbit of a diagonal action of a finite group on a finite set is a coherent algebra, i.e. where is defined as for all of a finite set acted on by a finite group .
- The span of a regular representation of a finite group as a group of permutation matrices over is a coherent algebra.
Properties
- The intersection of a set of coherent algebras of order is a coherent algebra.
- The tensor product of coherent algebras is a coherent algebra, i.e. if and are coherent algebras.
- The symmetrization of a commutative coherent algebra is a coherent algebra.
- If is a coherent algebra, then for all , , and if is homogeneous.
- Dually, if is a commutative coherent algebra (of order ), then for all , , and as well.
- Every symmetric coherent algebra is commutative, and every commutative coherent algebra is homogeneous.
- A coherent algebra is commutative if and only if it is the Bose–Mesner algebra of a (commutative) association scheme.[1]
- A coherent algebra forms a principal ideal ring under Schur product; moreover, a commutative coherent algebra forms a principal ideal ring under ordinary matrix multiplication as well.
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See also
References
- Godsil, Chris (2010). "Association Schemes" (PDF).
- Godsil, Chris (2011-01-26). "Periodic Graphs". The Electronic Journal of Combinatorics. 18 (1): P23. ISSN 1077-8926.
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