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Elastic Wave Scattering off a Single and Double Array of Periodic Defects

Omer Haq and Sergei V. Shabanov ()
Additional contact information
Omer Haq: Department of Physics, University of Florida, Gainesville, FL 32611, USA
Sergei V. Shabanov: Department of Mathematics, Institute for Fundamental Theory, University of Florida, Gainesville, FL 32611, USA

Mathematics, 2024, vol. 12, issue 21, 1-39

Abstract: The scattering problem of elastic waves impinging on periodic single and double arrays of parallel cylindrical defects is considered for isotropic materials. An analytic expression for the scattering matrix is obtained by means of the Lippmann–Schwinger formalism and analyzed in the long-wavelength approximation. It is proved that, for a specific curve in the space of physical and geometrical parameters, the scattering is dominated by resonances. The shear mode polarized parallel to the cylinders is decoupled from the other two polarization modes due to the translational symmetry along the cylinders. It is found that a relative mass density and relative Lamé coefficients of the scatterers give opposite contributions to the width of resonances in this mode. A relation between the Bloch phase and material parameters is found to obtain a global minimum of the width. The minimal width is shown to vanish in the leading order of the long wavelength limit for the single array. This new effect is not present in similar acoustic and photonic systems. The shear and compression modes in a plane perpendicular to the cylinders are coupled due to the normal traction boundary condition and have different group velocities. For the double array, it is proved that, under certain conditions on physical and geometrical parameters, there exist resonances with the vanishing width, known as Bound States in the Continuum (BSC). Necessary and sufficient conditions for the existence of BSC are found for any number of open diffraction channels. Analytic BSC solutions are obtained. Spectral parameters of BSC are given in terms of the Bloch phase and group velocities of the shear and compression modes.

Keywords: bound states in the continuum; elastic wave scattering; scattering theory; scattering resonances (search for similar items in EconPapers)
JEL-codes: C (search for similar items in EconPapers)
Date: 2024
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