A simple random matrix model for the vibrational spectrum of jammed packings

Abstract: To better understand the surprising low-frequency vibrational modes in structural glasses, we study the spectra of a large ensemble of sparse random matrices where disorder is controlled by the distribution of bond weights and network coordination. We find $D(\omega)$ has three regimes: a very-low-frequency regime that can be predicted analytically using extremal statistics, an intermediate regime with quasi-localized modes, and a plateau with $D(\omega) \sim \omega^0$. In the special case of uniform bond weights, the intermediate regime displays $D(\omega) \sim \omega^4$, independent of network coordination and system size, just as recently discovered in simulations of structural glasses.