What question did this study set out to answer?

The research aims to understand how random mass changes affect lattice dynamics through various analyses.

March 28, 2026

Effective dynamics in lattices with random mass perturbations

Key Points

The research aims to understand how random mass changes affect lattice dynamics through various analyses.
Investigation of a one-dimensional mono-atomic lattice with random mass perturbations.
Application of Newtonian dynamics and linear nearest-neighbour interactions.
Analysis conducted through transient dynamics and time-harmonic transmission frameworks.
Use of stochastic, multiscale techniques to derive expressions for displacement fields and transmission coefficients.
Provided expressions for the transient displacement field influenced by mass perturbations.
Derived time-harmonic transmission coefficients that describe energy propagation.
Theoretical findings align with numerical simulations, validating the models.

Abstract

We consider a one-dimensional mono-atomic lattice with random perturbations of masses spread over a finite number of particles. Assuming Newtonian dynamics and linear nearest-neighbour interactions and allowing for a provision of pinning due to substrate interaction, we discuss lattice dynamics in two frameworks: a transient dynamics problem and a time-harmonic transmission problem. By a stochastic, multiscale analysis we provide expressions for the transient displacement field, that propagates through the random perturbations, in the first case and for the time-harmonic transmission coefficients in the second case. These theoretical predictions are supported by illustrations of their agreements with numerical simulations.

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Effective dynamics in lattices with random mass perturbations

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Abstract

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