Spectral statistics for ensembles of various real random matrices

Abstract

We investigate spacing statistics p(s) and distribution of eigenvalues D(ε) for ensembles of various real random matrices (of order n × n, n=2 and n>>2) where the matrix-elements have various Probability Distribution Function (PDF: f(x)) including Gaussian. We construct ensembles of 1000, 100 × 100 real random matrices R, C (cyclic) and T (tridiagonal) and real symmetric matrices: R', R=R+Rt, Q=RRt, C (cyclic), T (tridiagonal), T' (pseudo-symmetric Tridiagonal), (Toeplitz) , D=CCt and S=TTt. We find that the spacing distribution of the adjacent levels of matrices R and R' under any symmetric PDF of matrix elements is pAB(s)=A s e-Bs2 which approximately conforms to the Wigner surmise as A/2 ≈ B ≈ π/4. But under asymmetric PDFs we observe A/2 ≈ B >>π/4, where A,B are also sensitive to the choice of the matrix and the PDF. More interestingly, the real symmetric matrices C, T, Q, (excepting D and S) and T' (pseudo-symmetric tridiagonal) all conform to the Poisson distribution pμ(s) =μ e-μ s, where μ depends upon the choice of the matrix and PDF. Let complex eigenvalues of R, C and T be Ecn. We show that all p(s) arising due to (Ecn), (Ecn) and |Ecn| of R, C and T are also of Poisson type: μ e-μ s. We observe p(s) as half-Gaussian for two real eigenvalues of C. For real matrices R, C, T, we associate new types of p(s) with them. Lastly, we study the distribution D(ε) of eigenvalues of symmetric matrices (of large order) discussed above.