Gradient index lenses for flexural waves based on thickness variations

Climente, Alfonso; Torrent, Daniel; Sánchez‐Dehesa, José

doi:10.1063/1.4893153

Cited by 119 publications

(70 citation statements)

References 27 publications

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“…It is clear from equation (4) that the refractive index can be properly designed by means of the material's properties, as usual, but also by means of the plate's thickness. This last idea has been exploited by krylov et al [18] and Climente et al [19,20] for the creation of gradient index devices by means of thickness variations. From the practical point of view, the fabrication of thin plates with a region of thickness variation following a specific profile can be complex under certain conditions, specially at the micro or nano-scales.…”

Section: Effective Refractive Index For Flexural Wavesmentioning

confidence: 99%

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Omnidirectional refractive devices for flexural waves based on graded phononic crystals

Torrent

Pennec

Djafari‐Rouhani

2014

Journal of Applied Physics

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Abstract. Different omnidirectional refractive devices for flexural waves in thin plates are proposed and numerically analyzed. Their realization is explained by means phononic crystal plates, where a previously developed homogenization theory is employed for the design of graded index refractive devices. These devices consist of a circular cluster of inclusions with properly designed gradient in their radius. With this approach, the Luneburg and Maxwell lenses and a family of beam splitters for flexural waves are proposed and analyzed. Results show that these devices work properly in a broadband frequency region, being therefore an efficient approach for the design of refractive devices specially interesting for nano-scale applications.

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Section: Effective Refractive Index For Flexural Wavesmentioning

confidence: 99%

“…In a recent publication [20] Climente et al proposed a set of omnidirectional refractive lenses for flexural waves based on thickness variations. This is possible given that the propagation velocity of flexural waves in thin plates depends not only on the material's parameters, but also on the plate's thickness.…”

Section: Introductionmentioning

confidence: 99%

Omnidirectional refractive devices for flexural waves based on graded phononic crystals

Torrent

Pennec

Djafari‐Rouhani

2014

Journal of Applied Physics

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“…For instance, cloaking devices, [14][15][16] flat lenses based on negative refraction, 17,18 gradient index flat and circular lenses [19][20][21] and omnidirectional absorbers 22,23 for flexural waves have been recently proposed and experimentally verified. Also, the dispersion relation of plates with periodic arrangements of rigid pins, 24,25 holes, 26 attached pillars [27][28][29] or point-like spring-mass resonators [30][31][32] attached to them has been investigated by several groups, as well as the resonant properties of complex inclusions.…”

Section: 13mentioning

confidence: 99%

Effective medium theory for elastic metamaterials in thin elastic plates

2014

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An effective medium theory for resonant and non-resonant metamaterials for flexural waves in thin plates is presented. The theory provides closed-form expressions for the effective mass density, rigidity and Poisson's ratio of arrangements of isotropic scatterers in thin plates, valid for low frequencies and moderate filling fractions. It is found that the effective Young's modulus and Poisson's ratio are induced by a combination of the monopolar and quadrupolar scattering coefficient, as it happens for bulk elastic waves, while the effective mass density is induced by the monopolar coefficient, contrarily as it happens for bulk elastic waves, where the effective mass density is induced by the dipolar coefficient. It is shown that resonant positive or negative effective elastic parameters are possible, being therefore the monopolar resonance the responsible of creating an effective medium with negative mass density. Several examples are given for both non-resonant and resonant effective parameters and the results are numerically verified by multiple scattering theory and finite element analysis.

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“…1. It has indeed been suggested that plates of varying thicknesses make focussing effects of Lamb waves possible [17] and this provides a nice playground for transformation platonics.…”

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confidence: 99%

“…We stress that analysis of time focusing of Lamb waves can also help to solve the controversy on whether or not Maxwell's fish-eye makes a perfect lens [11,13,14], but this is beyond the scope of the present work as it requires a plate with a circular stressfree boundary. Moreover, other thickness variations can be envisaged [17], what makes for instance Eaton lenses for flexural waves possible. We note that such lensing effects might be observed with pillar based metamaterial plates [24] with a variation of pillars's height like in Eq.…”

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confidence: 99%

Experiments on Maxwell's fish-eye dynamics in elastic plates

Lefebvre

Dubois

Beauvais

et al. 2015

Applied Physics Letters

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We experimentally demonstrate that a Duraluminium thin plate with a thickness profile varying radially in a piecewise constant fashion as h(r) = h(0)(1 + (r/Rmax)2 ) 2 , with h(0) = 0.5 mm, h(Rmax) = 2 mm and Rmax = 10 cm behaves in many ways as Maxwell's fish-eye lens in optics, since its imaging properties for a Gaussian pulse with central frequencies 30 kHz and 60 kHz are very similar to those predicted by ray trajectories (great circles) on a virtual sphere (rays emanating from the North pole meet at the South pole). However, refocusing time depends on the carrier frequency as a direct consequence of the dispersive nature of flexural waves in thin plates. Importantly, experimental results are in good agreement with FiniteDifference-Time-Domain simulations.

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Gradient index lenses for flexural waves based on thickness variations

Cited by 119 publications

References 27 publications

Omnidirectional refractive devices for flexural waves based on graded phononic crystals

Omnidirectional refractive devices for flexural waves based on graded phononic crystals

Effective medium theory for elastic metamaterials in thin elastic plates

Experiments on Maxwell's fish-eye dynamics in elastic plates

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