Random Interaction Matrix Ensembles in Mesoscopic Physics

Abstract

We analyze several ground state related properties of mesoscopic systems using the random interaction matrix model EGOE(1+2)- (or RIMM) for many fermion systems with spin degree of freedom and the Hamiltonian containing pairing and exchange interactions in addition to the mean-field one-body and random two-body parts. RIMM reproduces the essential features of various properties: odd-even staggering in ground state energies as a function of particle number, delay in ground state magnetization and conductance peak spacing distributions. The analytical formula, we have derived, for the ensemble averaged spectral variances provides a simple understanding of some of these properties.