Homogenization and long time asymptotic of a fluid-structure interaction problem

We study the homogenization of an unsteady fluid-structure interaction problem with a scaling corresponding to a long time asymptotic regime. We consider oscillating initial data which are Bloch wave packets corresponding to tubes vibrating in opposition of phase. We prove that the initial displacements follow the rays of geometric optics and that the envelope function evolves according to a Schrodinger equation which can be interpreted as an effect of dispersion.

Homogenization and long time asymptotic of a fluid-structure interaction problem

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Development and performance evaluation of a high mass resolution time of flight laser ablation ionisation mass spectrometer

Experimental investigation of the propagation properties of Bloch surface waves on dielectric multilayer platform

Polarization controlled directional propagation of Bloch Surface Wave

Experimental investigation of the propagation properties of Bloch surface waves on dielectric multilayer platform

Polarization controlled directional propagation of Bloch Surface Wave

Development and performance evaluation of a high mass resolution time of flight laser ablation ionisation mass spectrometer