Kevin Manktelow scite author profile

The interaction of waves in nonlinear media is of practical interest in the design of acoustic devices such as waveguides and filters. This investigation of the monoatomic mass-spring chain with a cubic nonlinearity demonstrates that the interaction of two waves results in different amplitude and frequency dependent dispersion branches for each wave, as opposed to a single amplitude-dependent branch when only a single wave is present. A theoretical development utilizing multiple time scales results in a set of evolution equations which are validated by numerical simulation. For the specific case where the wavenumber and frequency ratios are both close to 1:3 as in the long wavelength limit, the evolution equations suggest that small amplitude and frequency modulations may be present. Predictable dispersion behavior for weakly nonlinear materials provides additional latitude in tunable metamaterial design. The general results developed herein may be extended to three or more wavewave interaction problems.

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Directional bending wave propagation in periodically perforated plates

Andreassen

Manktelow

Ruzzene

2015

Journal of Sound and Vibration

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Comparison of asymptotic and transfer matrix approaches for evaluating intensity-dependent dispersion in nonlinear photonic and phononic crystals

2013

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Topology design and optimization of nonlinear periodic materials

Manktelow

Leamy

Ruzzene

2013

Journal of the Mechanics and Physics of Solids

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Kevin Manktelow

Finite-element based perturbation analysis of wave propagation in nonlinear periodic structures

Multiple scales analysis of wave–wave interactions in a cubically nonlinear monoatomic chain

Directional bending wave propagation in periodically perforated plates

Comparison of asymptotic and transfer matrix approaches for evaluating intensity-dependent dispersion in nonlinear photonic and phononic crystals

Topology design and optimization of nonlinear periodic materials

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