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A self-consistent current response theory of jamming and vibrational modes in low-temperature amorphous solids (2405.06537v1)

Published 10 May 2024 in cond-mat.soft and cond-mat.stat-mech

Abstract: We study amorphous solids with strong elastic disorder and find an un-jamming instability that exists, inter alia, in an harmonic model built using Euclidean random matrices (ERM). Employing the Zwanzig-Mori projection operator formalism and Gaussian factorization approximations, we develop a first-principles, self-consistent theory of transverse momentum correlations in athermal disordered materials, extending beyond the standard Born approximation. The vibrational anomalies in glass at low temperatures are recovered in the stable solid limit, and floppy modes lacking restoring forces are predicted in unstable states below the jamming transition. Near the un-jamming transition, the speed of sound $v_0\perp$ vanishes with $ \propto \sqrt{\epsilon}$, where $\epsilon$ denotes the distance from the critical point. Additionally, the density of states develops a plateau, independent of $\epsilon$ above a frequency $\omega_$ which vanishes at the transition, $\omega_\propto |\epsilon|$. We identify a characteristic length scale in the un-jammed phase, $\lambda_-\perp\propto1/\sqrt{\epsilon}$, indicating the distance over which injected momentum remains correlated. We confirm the theoretical predictions with numerical solutions of a scalar ERM model, demonstrating overall good qualitative and partly quantitative agreement.

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