Multiplicative Convolution of Real Asymmetric and Real Antisymmetric Matrices

Abstract

The singular values of products of standard complex Gaussian random matrices, or sub-blocks of Haar distributed unitary matrices, have the property that their probability distribution has an explicit, structured form referred to as a polynomial ensemble. It is furthermore the case that the corresponding bi-orthogonal system can be determined in terms of Meijer G-functions, and the correlation kernel given as an explicit double contour integral. It has recently been shown that the Hermitised product XM ·s X2 X1A X1T X2T ·s XMT, where each Xi is a standard real complex Gaussian matrix, and A is real anti-symmetric shares exhibits analogous properties. Here we use the theory of spherical functions and transforms to present a theory which, for even dimensions, includes these properties of the latter product as a special case. As an example we show that the theory also allows for a treatment of this class of Hermitised product when the Xi are chosen as sub-blocks of Haar distributed real orthogonal matrices.