Moore determinant of a Hermitian matrix

Template:Distinguish In mathematics, the Moore determinant is a determinant defined for Hermitian matrices over a quaternion algebra, introduced by Template:Harvs.

Because quaterion multiplication does not commute, it is necessary to specify the order in which multiplication occurs. The Moore determinant uses the formal classical determinant, which has ${\displaystyle n!}$ terms consisting of products of elements of the matrix, and for each term specifies an order for those elements to be multiplied. Specifically, it separates out cycles of factors ${\displaystyle a_{f_1{f}_2},a_{f_2{f}_3},\dots ,a_{f_k{f}_1}}$. The shortest cycles are placed first, with the smallest index within the cycle occurring first. Ties in the length of the cycle are broken by listing the cycle with the smallest ${\displaystyle f_1}$ first.

This definition has the property that the Moore determinant of a matrix formed from a suitable collection of vectors of quaternions is zero if and only if the vectors are linearly dependent.

• Dieudonné determinant
• quasideterminant

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