Is This a New Class of Matrices?

Abstract

We consider a new class of matrices associated to a real square matrix A and to a vector c ∈ \-1,1\n such that c1=1 by using a map c which turns out to be a conjugation of a matrix A by a signature matrix. It is shown that every such matrix is similar and congruent to a matrix A and that they have same permanental polynomials. There are 2n-1 maps c and they form an abelian group under the composition of maps isomorphic to the group (Z2n-1, +). A decomposition of matrices, on a symmetric and antisymmetric matrix under a map c, is considered. Particularly, it is shown that sum of all principal minors of the order two of a matrix A is equal to the sum of all principal minors of the order two of their symmetric and antisymmetric parts. It is shown that any symmetric matrix and any antisymmetric matrix under the map c are simultaneously permutation similar to certain block matrices which have two blocks. Finally, for a fixed matrix A, it is proved that the number of different matrices c(A) is 2n-t, where t is the number of connected components of the graph G whose adjacency matrix is A.