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arxiv: 2103.08336 · v1 · pith:KT23MPHPnew · submitted 2021-03-12 · ❄️ cond-mat.stat-mech · nlin.CD

Three-wave resonant interactions in the diatomic chain with cubic anharmonic potential: theory and simulations

classification ❄️ cond-mat.stat-mech nlin.CD
keywords chainwavediatomiccubicinteractionsresonantacousticalanharmonic
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We consider a diatomic chain characterized by a cubic anharmonic potential. After diagonalizing the harmonic case, we study in the new canonical variables, the nonlinear interactions between the acoustical and optical branches of the dispersion relation. Using the {\it wave turbulence} approach, we formally derive two coupled wave kinetic equations, each describing the evolution of the wave action spectral density associated to each branch. An $H$-theorem shows that there exist an irreversible transfer of energy that leads to an equilibrium solution characterized by the equipartition of energy in the new variables. While in the monoatomic cubic chain, in the large box limit, the main nonlinear transfer mechanism is based on four-wave resonant interactions, the diatomic one is ruled by a three wave resonant process (two acoustical and one optical wave): thermalization happens on shorter time scale for the diatomic chain with respect to the standard chain. Resonances are possible only if the ratio between the heavy and light masses is less than 3. Numerical simulations of the deterministic equations support our theoretical findings.

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