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1. Broadband terahertz near-field excitation and detection of silicon photonic crystal modes

Author

Lezhennikova, Kseniia, Mahmoodian, Sahand, Kuhlmey, Boris T., Abdeddaim, Redha, Enoch, Stefan, de Sterke, C. Martijn, and Tuniz, Alessandro

Subjects
Physics - Optics
Abstract

Chip-based terahertz (THz) devices are emerging as versatile tools for manipulating mm-wave frequencies in the context of integrated high-speed communication technologies for potential sixth-generation (6G) wireless applications. The characterization of THz devices is typically performed using far-field techniques that provide limited information about the underlying physical mechanisms producing them. As the library of chip-based functionalities expands, e.g., for tailoring the emission and directional propagation properties of THz antennas and waveguides, novel characterization techniques will likely be beneficial for observing subtle effects that are sensitive to a device's structural parameters. Here we present near-field measurements showing the emission properties of a broadband THz emitter placed in the vicinity of a photonic crystal (PHC) slab. These experiments reveal long-predicted emission properties, but which to our knowledge have yet to be experimentally observed at THz frequencies. We demonstrate three distinct effects between 0.3-0.5 THz: (i) field suppression at frequencies corresponding to quasi-TE bandgaps (ii) a frequency-dependent directed emission along two distinct pathways for two neighboring frequencies, resulting in a local field concentration; (iii) a re-direction of the emission, achieved by rotating the PHC with respect to the dipole orientation. Simulations reveal that the observed behavior can be predicted from the underlying band structure. Our results highlight the opportunities that PHCs can potentially provide for alignment-free, chip-based 6G technologies. Our experimental technique extends the applicability realms of THz spectroscopy and will find use for characterizing the THz modes supported by true samples, whose inherent imperfections cannot realistically be accounted for by simulations, particularly in highly dispersive frequency bands.

Published
2023
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3. Anomalous Reflection From Hyperbolic Media

Author

Deriy, Ilya, Lezhennikova, Kseniia, Glybovsky, Stanislav, Iorsh, Ivan, Yermakov, Oleh, Song, Mingzhao, Abdeddaim, Redha, Enoch, Stefan, Belov, Pavel, and Bogdanov, Andrey

Subjects
Physics - Optics, Physics - Classical Physics
Abstract

Despite the apparent simplicity, the problem of refraction of electromagnetic waves at the planar interface between two media has an incredibly rich spectrum of unusual phenomena. An example is the paradox that occurs when an electromagnetic wave is incident on the interface between a hyperbolic medium and an isotropic dielectric. At certain orientations of the optical axis of the hyperbolic medium relative to the interface, the reflected and transmitted waves are completely absent. In this paper, we formulate the aforementioned paradox and present its resolution by introduction of infinitesimal losses in a hyperbolic medium. We show that the reflected wave exists, but became extremely decaying as the loss parameter tends to zero. As a consequence, all the energy scattered into the reflected channel is absorbed at the interface. We support our reasoning with analytical calculations, numerical simulations, and an experiment with self-complementary metasurfaces in the microwave region. In addition to the great fundamental interest, this paradox resolution discovers a plethora of applications for the reflectors, refractors, absorbers, lenses, antennas, camouflage and holography applications., Comment: 16 pages, 4 figures

Published
2023

4. Cloaking Liquid Surface Waves and Plasmon Polaritons

Author

Kadic, Muamer, Farhat, Mohamed, Guenneau, Sébastien R. L., Quidant, Romain, Enoch, Stefan, Hull, Robert, Series Editor, Jagadish, Chennupati, Series Editor, Kawazoe, Yoshiyuki, Series Editor, Kruzic, Jamie, Series Editor, Mooradian, Arshag D., Series Editor, Osgood Jr., Richard, Series Editor, Parisi, Jürgen, Series Editor, Pohl, Udo W., Series Editor, Sakaki, Hiroyuki, Series Editor, Seong, Tae-Yeon, Series Editor, Uchida, Shin-ichi, Series Editor, Wang, Zhiming M., Series Editor, Warlimont, Hans, Series Editor, Zunger, Alex, Series Editor, Craster, Richard, editor, and Guenneau, Sébastien, editor

Published
2024
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6. Neolithic stone settlements as locally resonant metasurfaces

Author

Brûlé, Stéphane, Ungureanu, Bogdan, Enoch, Stefan, and Guenneau, Sébastien

Subjects
Physics - Geophysics, Condensed Matter - Materials Science, Physics - Computational Physics
Abstract

We study the dynamic surface response of neolithic stone settlements obtained with seismic ambient noise techniques near the city of Carnac in French Brittany. Surprisingly, we find that menhirs (neolithic human size standing alone granite stones) with an aspect ratio between 1 and 2 periodically arranged atop a thin layer of sandy soil laid on a granite bedrock, exhibit fundamental resonances in the range of 10 to 25 Hz. We propose an analogic Kelvin-Voigt viscoelastic model that explains the origin of such low frequency resonances. We further explore low frequency filtering effect with full wave finite element simulations. Our numerical results confirm the bending nature of fundamental resonances of the menhirs and further suggest additional resonances of rotational and longitudinal nature in the frequency range 25 to 50 Hz. Our study thus paves the way for large scale seismic metasurfaces consisting of granite stones periodically arranged atop a thin layer of regolith over a bedrock, for ground vibration mitigation in earthquake engineering., Comment: 6 pages, 7 figures

Published
2022

7. On the possibility of seismic rogue waves in very soft soils

Author

Brule, Stephane, Enoch, Stefan, and Guenneau, Sebastien

Subjects
Physics - Geophysics, Nonlinear Sciences - Pattern Formation and Solitons, Physics - Computational Physics, Physics - Fluid Dynamics
Abstract

Liquid wave studies have shown that under certain constructive interference conditions, an abnormal size wave could be generated at a specific point. This type of wave, described long ago in the literature, was named 'Draupner Wave' in 1995. It was the first rogue wave, more than ten meters high, to be detected by a measuring instrument, occurring at the Draupner platform in the North Sea off the coast of Norway. For very soft and thick soils in continental sedimentary basin, with high water content, low shear wave velocity and wave bouncing effects on the edges of the basin, one can question the theoretical existence of such a type of freak waves that may have come unnoticed amongst surface seismic waves. This short communication presents recent observations and the conditions and limits of the analogy between gravity and seismic waves., Comment: 13 pages, 7 figures

Published
2020

9. Photosensitive chalcogenide metasurfaces supporting bound states in the continuum

Author

Mikheeva, Elena, Koshelev, Kirill, Choi, Duk-Yong, Kruk, Sergey, Lumeau, Julien, Abdeddaim, Redha, Voznyuk, Ivan, Enoch, Stefan, and Kivshar, Yuri

Subjects
Physics - Optics, Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Applied Physics
Abstract

We study, both theoretically and experimentally, tunable metasurfaces supporting sharp Fano-resonances inspired by optical bound states in the continuum. We explore the use of arsenic trisulfide (a photosensitive chalcogenide glass) having optical properties which can be finely tuned by light absorption at the post-fabrication stage. We select the resonant wavelength of the metasurface corresponding to the energy below the arsenic trisulfide bandgap, and experimentally control the resonance spectral position via exposure to the light of energies above the bandgap., Comment: 7 pages, 5 figures

Published
2019
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10. Seismic wave shield using cubic arrays of split-ball resonators

Author

Ungureanu, Bogdan, Achaoui, Younes, Brule, Stephane, Enoch, Stefan, Craster, Richard, and Guenneau, Sebastien

Subjects
Physics - Classical Physics, Physics - Geophysics
Abstract

Metre size inertial resonators located in the ground have been theoretically shown to interact with a seismic wave (attenuation, band gaps) to enable protection of surface structures such as buildings. The challenge for Civil Engineering is to both reduce the size of these resonators and to increase their efficiency. Here we explore steel spheres, connected to a concrete bulk medium, either by a coating of rubber, or rubber and steel ligaments, or air and steel ligaments. We show that for a cubic lattice periodicity of 1 metre, we achieve stop bands in the frequency range 14 to 20 Hz; by splitting spheres in 2 and 8 pieces, we tune down the stop bands frequencies and further increase their bandwidth. We thus demonstrate we are able to provide a variety of inertial resonators with stop bands below 10 Hz i.e., in the frequency range of interest for earthquake engineering.

Published
2019

11. Role of nanophotonics in the birth of seismic megastructures

Author

Brûlé, Stéphane, Enoch, Stefan, and Guenneau, Sébastien

Subjects
Physics - Geophysics, Physics - Optics
Abstract

The discovery of photonic crystals thirty years ago, in conjunction with research advances in plasmonics and metamaterials, has inspired the concept of decameter scale metasurfaces, coined seismic metamaterials, for an enhanced control of surface (Love and Rayleigh) and bulk (shear and pressure) elastodynamic waves. The powerful mathematical tools of coordinate transforms, effective medium and Floquet-Bloch theories, which have revolutionized nanophotonics, can be translated in the language of civil engineering and geophysics. Experiments on seismic metamaterials made of buried elements in the soil demonstrate that the fore mentioned tools make possible a novel description of complex phenomena of soil-structure interaction during a seismic disturbance. But the concepts are already moving to more futuristic concepts and the same notions developed for structured soils are now used to examine the effects of buildings viewed as above surface resonators in megastructures such as metacities. But this perspective of the future should not make us forget the heritage of the ancient peoples. Indeed, we finally point out the striking similarity between an invisibility cloak design and the architecture of some ancient megastructures as antique Gallo-Roman theaters and amphitheatres., Comment: 13 pages, 16 figures

Published
2019

12. The influence of building interactions on seismic and elastic surface waves

Author

Ungureanu, Bogdan, Guenneau, Sébastien, Achaoui, Younes, Diatta, Andre, Farhat, Mohamed, Hutridurga, Harsha, Craster, Richard V, Enoch, Stefan, and Brûlé, Stéphane

Subjects
Physics - Classical Physics
Abstract

We outline some recent research advances on the control of elastic waves in thin and thick plates, that have occurred since the large scale experiment [Phys. Rev. Lett. 112, 133901, 2014] that demonstrated significant interaction of surface seismic waves with holes structuring sedimentary soils at the meter scale. We further investigate the seismic wave trajectories in soils structured with buildings. A significant substitution of soils by inclusions, acting as foundations, raises the question of the effective dynamic properties of these structured soils. Buildings, in the case of perfect elastic conditions for both soil and buildings, are shown to interact and strongly influence elastic surface waves; such site-city seismic interactions were pointed out in [Bulletin of Seismological Society of America 92, 794-811, 2002], and we investigate a variety of scenarios to illustrate the variety of behaviours possible., Comment: 15 pages, 9 figures

Published
2019

13. Direct imaging of the energy transfer enhancement between two dipoles in a photonic cavity

Author

Rustomji, Kaizad, Dubois, Marc, Kuhlmey, Boris, de Sterke, C. Martijn, Enoch, Stefan, Abdeddaim, Redha, and Wenger, Jérôme

Subjects
Physics - Optics, Physics - Applied Physics
Abstract

Photonic cavities are gathering a large interest to enhance the energy transfer between two dipoles, with far-reaching consequences for applications in photovoltaics, lighting sources and molecular biosensing. However, experimental difficulties in controlling the dipoles' positions, orientations and spectra have limited the earlier work in the visible part of the spectrum, and have led to inconsistent results. Here, we directly map the energy transfer of microwaves between two dipoles inside a resonant half-wavelength cavity with ultrahigh control in space and frequency. Our approach extends F\"orster resonance energy transfer (FRET) theory to microwave frequencies, and bridges the gap between the descriptions of FRET using quantum electrodynamics and microwave engineering. Beyond the conceptual interest, we show how this approach can be used to optimize the design of photonic cavities to enhance dipole-dipole interactions and FRET., Comment: Accepted for publication in PRX

Published
2019
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14. Experimental evidence of auxetic features in seismic metamaterials: Ellipticity of seismic Rayleigh waves for subsurface architectured ground with holes

Author

Brule, Stephane, Enoch, Stefan, and Guenneau, Sebastien

Subjects
Physics - Geophysics, Physics - Applied Physics
Abstract

Structured soils with regular meshes of metric size holes implemented in first ten meters of the ground have been theoretically and experimentally tested under seismic disturbance this last decade. Structured soils with rigid inclusions embedded in a substratum have been also recently developed. The influence of these inclusions in the ground can be characterized in different ways: redistribution of energy within the network with focusing effects for seismic metamaterials, wave reflection, frequency filtering, reduction of the amplitude of seismic signal energy, etc. Here we first provide some time-domain analysis of the flat lens effect in conjunction with some form of external cloaking of Rayleigh waves and then we experimentally show the effect of a finite mesh of cylindrical holes on the ellipticity of the surface Rayleigh waves at the level of the Earth's surface. Orbital diagrams in time domain are drawn for the surface particle's velocity in vertical (x,z) and horizontal (x,y) planes. These results enable us to observe that the mesh of holes locally creates a tilt of the axes of the ellipse and changes the direction of particle movement. Interestingly, changes of Rayleigh waves ellipticity can be interpreted as changes of an effective Poisson ratio. However, the proximity of the source is also important to explain the shape of the ellipses. We analyze these observations in terms of wave mode conversions inside the mesh and we propose to broaden the discussion on the complexity of seismic wave phenomena in structured soils such as soils foundations and on the coupling effects specific to the soil-structure interaction., Comment: 7 pages, 5 figures

Published
2018

16. Low frequency acoustic stop bands in cubic arrays of thick spherical shells with holes

Author

Dupont, Guillaume, Movchan, Alexander, Enoch, Stefan, and Guenneau, Sebastien

Subjects
Physics - Classical Physics
Abstract

We analyse the propagation of pressure waves within a fluid filled with a three-dimensional array of rigid coated spheres (shells). We first draw band diagrams for corresponding Floquet-Bloch waves. We then dig a channel terminated by a cavity within each rigid shell and observe the appearance of a low frequency stop band. The underlying mechanism is that each holey shell now acts as a Helmholtz resonator supporting a low frequency localized mode: Upon resonance, pressure waves propagate with fast oscillations in the thin water channel drilled in each shell and are localized in each fluid filled inner cavity. The array of fluid filled shells is approximated by a simple mechanical model of springs and masses allowing for asymptotic estimates of the low frequency stop band. We finally propose a realistic design of periodic macrocell with a large defect surrounded by 26 resonators connected by thin straight rigid wires, which supports a localized mode in the low frequency stop band., Comment: 7 pages, 12 figures

Published
2017

17. Emergence of Seismic Metamaterials: Current State and Future Perspectives

Author

Brûlé, Stéphane, Enoch, Stefan, and Guenneau, Sébastien

Subjects
Physics - Applied Physics, Physics - Geophysics
Abstract

Following the advent of electromagnetic metamaterials at the turn of the century, researchers working in other areas of wave physics have translated concepts of electromagnetic metamaterials to acoustics, elastodynamics, as well as to heat, mass and light diffusion processes. In elastodynamics, seismic metamaterials have emerged in the last decade for soft soils structured at the meter scale, and have been tested thanks to full-scale experiments on holey soils five years ago. Born in the soil, seismic metamaterials grow simultaneously on the field of tuned-resonators buried in the soil, around building's foundations or near the soil-structure's interface, and on the field of above-surface resonators. In this perspective article, we quickly recall some research advances made in all these types of seismic metamaterials and we further dress an inventory of which material parameters can be achieved and which cannot, notably from the effective medium theory perspective. We finally envision perspectives on future developments of large scale auxetic metamaterials for building's foundations, forests of trees for seismic protection and metamaterial-like transformed urbanism at the city scale., Comment: 12 pages, 11 figures

Published
2017

18. Polarizability Expressions for Predicting Resonances in Plasmonic and Mie Scatterers

Author

Colom, Rémi, Devilez, Alexis, Enoch, Stefan, Stout, Brian, and Bonod, Nicolas

Subjects
Physics - Optics
Abstract

Polarizability expressions are commonly used in optics and photonics to model the light scattering by small particles. Models based on Taylor series of the scattering coefficients of the particles fail to predict the morphologic resonances hosted by dielectric particles. Here, we propose to use the factorization of the special functions appearing in the expression of the Mie scattering coefficients to derive point-like models. These models can be applied to reproduce both Mie resonances of dielectric particles and plasmonic resonances of metallic particles. They provide simple but robust tools to predict accurately the electric and magnetic Mie resonances in dielectric particles., Comment: 11 pages, 7 figures

Published
2017
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19. Dykes for filtering ocean waves using c-shaped vertical cylinders

Author

Dupont, Guillaume, Remy, Fabien, Kimmoun, Olivier, Molin, Bernard, Guenneau, Sebastien, and Enoch, Stefan

Subjects
Physics - Fluid Dynamics
Abstract

The present study investigates a way to design dykes which can filter the wavelengths of ocean surface waves. This offers the possibility to achieve a structure that can attenuate waves associated with storm swell, without affecting coastline in other conditions. Our approach is based on low frequency resonances in metamaterials combined with Bragg frequencies for which waves cannot propagate in periodic lattices.

Published
2017
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21. Bio-inspired seismic metamaterials: Time domain simulations in transformed crystals

Author

Aznavourian, Ronald, Puvirajesinghe, Tania, Brule, Stephane, Enoch, Stefan, and Guenneau, Sebastien

Subjects
Physics - Biological Physics
Abstract

We introduce the concept of transformation crystallography which consists of the application of geometric transforms to periodic structures. We consider motifs with three-fold, four-fold and six-fold symmetries according to the crystallographic restriction theorem. Furthermore, we define motifs with five-fold symmetry such as quasi-crystals generated by a cut-and-projection method. We analyze elastic wave propagation in the transformed crystals and (Penrose-type) quasi-crystals with the finite difference time domain freeware SimSonic. We consider geometric transforms underpinning the design of seismic cloaks with square, circular, elliptical and peanut shapes in the context of triangular, square and honeycomb crystals. Interestingly, the use of morphing techniques leads to the design of cloaks with interpolated geometries reminiscent of Victor Vasarely's artwork. Employing the case of transformed graphene-like (honeycomb) structures allows one to draw useful analogies between large-scale seismic metamaterials such as soils structured with columns of concrete or grout with soil and nanoscale biochemical metamaterials. We further point out similarities between cloaks for elastodynamic and hydrodynamic waves and cloaks for diffusion (heat or mass) diffusion processes, notably with respect to invisibility and protection. Experimental data extracted from field test analysis of soil structured with boreholes demonstrates the application of bio-inspired seismic metamaterials. We conclude that these novel materials hold strong applications in biophysics and geophysics., Comment: 25 pages, 14 figures

Published
2016

22. Control of Rayleigh-like waves in thick plate Willis metamaterials

Author

Diatta, Andre, Achaoui, Younes, Brûlé, Stéphane, Enoch, Stefan, and Guenneau, Sébastien

Subjects
Physics - Geophysics, Condensed Matter - Materials Science
Abstract

We explore interactions of elastic waves propagating in plates (with soil parameters) structured with concrete pillars buried in the soil. Pillars are 2 m in diameter, 30 m in depth and the plate is 50 m in thickness. We study the frequency range 5 to 10 Hz, for which Rayleigh wave wavelengths are smaller than the plate thickness. This frequency range is compatible with frequency ranges of particular interest in earthquake engineering. It is demonstrated in this paper that two seismic cloaks' configurations allow for an unprecedented flow of elastodynamic energy associated with Rayleigh surface waves. The first cloak design is inspired by some approximation of ideal cloaks' parameters within the framework of thin plate theory. The second, more accomplished but more involved, cloak design is deduced from a geometric transform in the full Navier equations that preserves the symmetry of the elasticity tensor but leads to Willis' equations, well approximated by a homogenization procedure, as corroborated by numerical simulations. The two cloaks's designs are strikingly different, and the superior efficiency of the second type of cloak emphasizes the necessity for rigor in transposition of existing cloaks's designs in thin plates to the geophysics setting. Importantly, we focus our attention on geometric transforms applied to thick plates, which is an intermediate case between thin plates and semi-infinite media, not studied previously. Cloaking efficiency (reduction of the disturbance of the wave wavefront and its amplitude behind an obstacle) and protection (reduction of the wave amplitude within the center of the cloak) are studied for ideal and approximated cloaks' parameters. These results represent a preliminary step towards designs of seismic cloaks for surface Rayleigh waves propagating in sedimentary soils structured with concrete pillars., Comment: V2: Major changes. Quantitative study carried out. New figures. Investigation of elastic trapped modes and resonances. Latex, 13 pages, 8 pages. Pacs: 41.20.Jb,42.25.Bs,42.70.Qs,43.20.Bi,43.25.Gf. The last version will appear at AIP Advances

Published
2016
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23. Flat lens for seismic waves

Author

Brule, Stephane, Enoch, Stefan, and Guenneau, Sebastien

Subjects
Physics - Geophysics
Abstract

A prerequisite for achieving seismic invisibility is to demonstrate the ability of civil engineers to control seismic waves with artificially structured soils. We carry out large-scale field tests with a structured soil made of a grid consisting of cylindrical and vertical holes in the ground and a low frequency artificial source (< 10 Hz). This allows the identification of a distribution of energy inside the grid, which can be interpreted as the consequence of an effective negative refraction index. Such a flat lens reminiscent of what Veselago and Pendry envisioned for light opens avenues in seismic metamaterials to counteract the most devastating components of seismic signals.

Published
2016

24. Seismic waves damping with arrays of inertial resonators

Author

Achaoui, Younes, Ungureanu, Bogdan, Enoch, Stefan, Brûlé, Stéphane, and Guenneau, Sébastien

Subjects
Physics - Classical Physics
Abstract

We investigate the elastic stop band properties of a theoretical cubic array of iron spheres connected to a bulk of concrete via iron or rubber ligaments. Each sphere can move freely within a surrounding air cavity, but ligaments couple it to the bulk and further facilitate bending and rotational motions. Associated low frequency local resonances are well predicted by an asymptotic formula. We find complete stop bands (for all wave-polarizations) in the frequency range $[16,21]$ Hertz (resp. $[6,11]$ Hertz) for $7.4$-meter (resp. $0.74$-meter) diameter iron spheres with a $10$-meter (resp. $1$-meter) center-to-center spacing, when they are connected to concrete via steel (resp. rubber) ligaments. The scattering problem shows that only bending modes are responsible for damping and that rotational modes are totally overwritten by bending modes. Regarding seismic applications, we further consider soil as a bulk medium, in which case the relative bandwidth of the low frequency stop band can be enlarged through ligaments of different sizes that allow for well separated bending and rotational modes. We finally achieve some damping of elastodynamic waves from $8$ to $49$ Hertz (relative stop band of $143$ percent) for iron spheres $0.74$-meter in diameter that are connected to soil with six rubber ligaments of optimized shapes. These results represent a preliminary step in the design of seismic shields placed around, or underneath, the foundations of large civil infrastructures.

Published
2015

25. Auxetic-like metamaterials as novel earthquake protections

Author

Ungureanu, Bogdan, Achaoui, Younes, Enoch, Stefan, Brûlé, Stéphane, and Guenneau, Sébastien

Subjects
Physics - Classical Physics, Condensed Matter - Materials Science
Abstract

We propose that wave propagation through a class of mechanical metamaterials opens unprecedented avenues in seismic wave protection based on spectral properties of auxetic-like metamaterials. The elastic parameters of these metamaterials like the bulk and shear moduli, the mass density, and even the Poisson ratio, can exhibit negative values in elastic stop bands. We show here that the propagation of seismic waves with frequencies ranging from 1Hz to 40Hz can be influenced by a decameter scale version of auxetic-like metamaterials buried in the soil, with the combined effects of impedance mismatch, local resonances and Bragg stop bands. More precisely, we numerically examine and illustrate the markedly different behaviors between the propagation of seismic waves through a homogeneous isotropic elastic medium (concrete) and an auxetic-like metamaterial plate consisting of 64 cells (40mx40mx40m), utilized here as a foundation of a building one would like to protect from seismic site effects. This novel class of seismic metamaterials opens band gaps at frequencies compatible with seismic waves when they are designed appropriately, what makes them interesting candidates for seismic isolation structures.

Published
2015

26. Seismic metamaterial: how to shake friends and influence waves?

Author

Brûlé, Stéphane, Javelaud, Emmanuel, Enoch, Stefan, and Guenneau, Sébastien

Subjects
Physics - Geophysics
Abstract

Materials engineered at the micro- and nano-meter scale have had a tremendous and lasting impact in photonics and phononics, with applications ranging from periodic structures disallowing light and sound propagation at stop band frequencies, to subwavelength focussing and cloaking with metamaterials. Here, we present the description of a seismic test held on a soil structured at the meter scale using vibrocompaction probes. The most simplistic way to interact with a seismic wave is to modify the global properties of the medium, acting on the soil density and then on the wave velocity. The main concept is then to reduce the amplification of seismic waves at the free surface, called site effects in earthquake engineering. However, an alternative way to counteract the seismic signal is by modifying the distribution of seismic energy thanks to a metamaterial made of a grid of vertical, cylindrical and empty inclusions bored in the initial soil, in agreement with numerical simulations using an approximate plate model., Comment: 9 pages, 5 figures

Published
2013

28. Invisibility carpet in a channel with a structured fluid

Author

Dupont, Guillaume, Guenneau, Sebastien, and Enoch, Stefan

Subjects
Physics - Fluid Dynamics
Abstract

We first note it is possible to construct two linear operators defined on two different domains, yet sharing the same spectrum using a geometric transform. However, one of these two operators will necessarily have spatially varying, matrix valued, coefficients. This mathematical property can be used in the design of metamaterials whereby two different domains behave in the same electromagnetic, acoustic, or hydrodynamic way (mimetism). To illustrate this property, we describe a feasible invisibility carpet for linear surface liquid waves in a channel. This structured metamaterial bends surface waves over a finite interval of Hertz frequencies.

Published
2011

29. Numerical Analysis of Three-dimensional Acoustic Cloaks and Carpets

Author

Dupont, Guillaume, Farhat, Mohamed, Diatta, Andre, Guenneau, Sebastien, and Enoch, Stefan

Subjects
Mathematical Physics, Mathematics - Differential Geometry, Quantum Physics, 78A40, 78A45, 78A48, 78A25, 81V80, 81V65, 82D40, 78M99, 78A50
Abstract

We start by a review of the chronology of mathematical results on the Dirichlet-to-Neumann map which paved the way towards the physics of transformational acoustics. We then rederive the expression for the (anisotropic) density and bulk modulus appearing in the pressure wave equation written in the transformed coordinates. A spherical acoustic cloak consisting of an alternation of homogeneous isotropic concentric layers is further proposed based on the effective medium theory. This cloak is characterised by a low reflection and good efficiency over a large bandwidth for both near and far fields, which approximates the ideal cloak with a inhomogeneous and anisotropic distribution of material parameters. The latter suffers from singular material parameters on its inner surface. This singularity depends upon the sharpness of corners, if the cloak has an irregular boundary, e.g. a polyhedron cloak becomes more and more singular when the number of vertices increases if it is star shaped. We thus analyse the acoustic response of a non-singular spherical cloak designed by blowing up a small ball instead of a point, as proposed in [Kohn, Shen, Vogelius, Weinstein, Inverse Problems 24, 015016, 2008]. The multilayered approximation of this cloak requires less extreme densities (especially for the lowest bound). Finally, we investigate another type of non-singular cloaks, known as invisibility carpets [Li and Pendry, Phys. Rev. Lett. 101, 203901, 2008], which mimic the reflection by a flat ground., Comment: Latex, 21 pages, 7 Figures, last version submitted to Wave Motion. OCIS Codes: (000.3860) Mathematical methods in physics; (260.2110) Electromagnetic theory; (160.3918) Metamaterials; (160.1190) Anisotropic optical materials; (350.7420) Waves; (230.1040) Acousto-optical devices; (160.1050) Acousto-optical materials; (290.5839) Scattering,invisibility; (230.3205) Invisibility cloaks

Published
2011
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30. Plasmonic interaction of light with negative index and gold nano-checkerboards

Author

Chakrabarti, Sangeeta, Ramakrishna, S. Anantha, Shukla, Neeraj, Guenneau, Fanny, Kadic, Muamer, Guenneau, Sebastien, and Enoch, Stefan

Subjects
Physics - Optics
Abstract

Negative refractive index materials (NRIM) make possible unique effects such as a convergent at lens due to the reversed Snell-Descartes laws of refraction. NRIM are also known to be able to support a host of surface plasmon states for both polarizations of light which are responsible for the sub-wavelength image resolution achieved by a slab of NRIM. A generalized lens theorem provides us with a class of spatially varying slab lenses satisfying the prerequisite symmetries to fold the optical space onto itself. This theorem can be derived using powerful tools of transformational optics. A paradigm of such complementary media are checkerboards consisting of alternating cells of positive and negative refractive index that represent a very singular situation in which the local density of modes at the corners are enormously enhanced. We have considered several theoretical and numerical aspects of such structured films including a finite slabs of multi-scale checkerboards of NRIM satisfying the generalized lens theorem which are host of strongly enhanced electromagnetic feld. Such checkerboards can be mapped using transformational optics onto three-dimensional corner lenses consisting of semi-infinite heterogeneous anisotropic regions of space satisfying the generalized lens theorem. It is also possible to design three-dimensional checkerboards of complementary media, the only restriction being that corresponding unfolded structures in the plane are constrained by the four color theorem. Some of these meta-surfaces in the plane display thin bridges of complementary media, and this further enhances their plasmonic response. Since plasmonic metals mimic the behaviour of NRIM at small length scales, opaque gold films structured at sub-micron scales in a checkerboard fashion were fabricated using focussed-ion-beam technologies and their scattering spectra measured.

Published
2011

31. Invisible waveguides on metal plates for plasmonic analogues of electromagnetic wormholes

Author

Kadic, Muamer, Dupont, Guillaume, Guenneau, Sebastien, and Enoch, Stefan

Subjects
Physics - Optics
Abstract

We introduce two types of toroidal metamaterials which are invisible to surface plasmon polaritons (SPPs) propagating on a metal surface. The former is a toroidal handlebody bridging remote holes on the metal surface: It works as a kind of plasmonic counterpart of electromagnetic wormholes. The latter is a toroidal ring lying on the metal surface: This bridges two disconnected metal surfaces i.e. It connects a thin metal cylinder to a flat metal surface with a hole. Full-wave numerical simulations demonstrate that an electromagnetic field propagating inside these metamaterials does not disturb the propagation of SPPs at the metal surface. A multilayered design of these devices is proposed, based on effective medium theory for a set of reduced parameters: The former plasmonic analogue of electromagnetic wormhole requires homogeneous isotropic magnetic layers, while the latter merely requires dielectric layers., Comment: 17 figures

Published
2011

32. Curved trajectories on transformed metal surfaces: Luneburg lens, beam-splitter, invisibility carpet and black hole for surface plasmon polaritons

Author

Muamer, Kadic, Guillaume, Dupont, Chang, Tieh-Ming, Guenneau, Sebastien, and Enoch, Stefan

Subjects
Physics - Optics, Physics - Physics and Society
Abstract

Transformational optics are shown to markedly enhance the control of the electromagnetic wave trajectories within metamaterials with unconventional functionalities such as a beam splitter, a toroidal carpet, a Luneburg lens and a black hole, all of which are specially designed for surface plasmon polaritons propagating on a metal plate, Comment: 10 pages 4 figures Tacona 2010

Published
2011
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33. Plasmonic space folding: focussing surface plasmons via negative refraction in complementary media

Author

Kadic, Muamer, Guenneau, Sebastien, Enoch, Stefan, and Ramakrishna, S. Anantha

Subjects
Physics - Optics
Abstract

We extend designs of perfect lenses to the focussing of surface plasmon polaritons (SPPs) propagating at the interface between two anisotropic media of opposite permittivity sign. We identify the role played by the components of anisotropic and heterogeneous tensors of permittivity and permeability, deduced from a coordinate transformation, in the dispersion relation governing propagation of SPPs. We illustrate our theory with three-dimensional finite element computations for focussing of SPPs by perfect flat and cylindrical lenses.

Published
2010

34. Controlling surface plasmon polaritons in transformed coordinates

Author

Kadic, Muamer, Dupont, Guillaume, Guenneau, Sebastien, and Enoch, Stefan

Subjects
Physics - Optics
Abstract

Transformational optics allow for a markedly enhanced control of the electromagnetic wave trajectories within metamaterials with interesting applications ranging from perfect lenses to invisibility cloaks, carpets, concentrators and rotators. Here, we present a review of curved anisotropic heterogeneous meta-surfaces designed using the tool of transformational plasmonics, in order to achieve a similar control for surface plasmon polaritons in cylindrical and conical carpets, as well as cylindrical cloaks, concentrators and rotators of a non-convex cross-section. Finally, we provide an asymptotic form of the geometric potential for surface plasmon polaritons on such surfaces in the limit of small curvature., Comment: 14 pages, 9 figures

Published
2010
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35. Finite elements modelling of scattering problems for flexural waves in thin plates: Application to elliptic invisibility cloaks, rotators and the mirage effect

Author

Farhat, Mohamed, Guenneau, Sebastien, and Enoch, Stefan

Subjects
Physics - Computational Physics
Abstract

We propose a finite elements algorithm to solve a fourth order partial differential equation governing the propagation of time-harmonic bending waves in thin elastic plates. Specially designed perfectly matched layers are implemented to deal with the infinite extent of the plates. These are deduced from a geometric transform in the biharmonic equation. To numerically illustrate the power of elastodynamic transformations, we analyse the elastic response of an elliptic invisibility cloak surrounding a clamped obstacle in the presence of a cylindrical excitation i.e. a concentrated point force. Elliptic cloaking for flexural waves involves a density and an orthotropic Young's modulus which depend on the radial and azimuthal positions, as deduced from a coordinates transformation for circular cloaks in the spirit of Pendry et al. [Science {\bf 312}, 1780 (2006)], but with a further stretch of a coordinate axis. We find that a wave radiated by a concentrated point force located a couple of wavelengths away from the cloak is almost unperturbed in magnitude and in phase. However, when the point force lies within the coating, it seems to radiate from a shifted location. Finally, we emphasize the versatility of transformation elastodynamics with the design of an elliptic cloak which rotates the polarization of a flexural wave within its core., Comment: 14 pages, 5 figures

Published
2010
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36. Electromagnetic analysis of arbitrarily shaped pinched carpets

Author

Dupont, Guillaume, Guenneau, Sebastien, and Enoch, Stefan

Subjects
Physics - Computational Physics, Physics - Optics
Abstract

We derive the expressions for the anisotropic heterogeneous tensors of permittivity and perme- ability associated with two-dimensional and three-dimensional carpets of an arbitrary shape. In the former case, we map a segment onto smooth curves whereas in the latter case we map a non convex region of the plane onto smooth surfaces. Importantly, these carpets display no singularity of the permeability and permeability tensor components, and this may lead to some broadband cloaking., Comment: 6 pages, 6 figures, Current Status of Manuscript: 19Apr10 26May10-Sent on appeal;report rcvd 29Dec09 13Apr10-Ed. decision and/or ref. comments to author;response rcvd 04Dec09 21Dec09-Ed. decision and/or ref. comments to author;response rcvd 01Dec09-Transferred from PRL to PRA 18Aug09 30Nov09-Ed.decision and/or ref. comments to author;response rcvd 14Aug09 - Correspondence sent to author

Published
2010
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37. Hidden progress: broadband plasmonic invisibility

Author

Renger, Jan, Kadic, Muamer, Dupont, Guillaume, Aćimović, Srdjan S., Guenneau, Sébastien, Quidant, Romain, and Enoch, Stefan

Subjects
Physics - Optics
Abstract

The key challenge in current research into electromagnetic cloaking is to achieve invisibility over an extended bandwidth. There has been significant progress towards this using the idea of cloaking by sweeping under the carpet of Li and Pendry, with dielectric structures superposed on a mirror. Here, we show that we can harness surface plasmon polaritons at a metal surface structured with a dielectric material to obtain a unique control of their propagation. We exploit this to control plasmonic coupling and demonstrate both theoretically and experimentally cloaking over an unprecedented bandwidth (650-900 nm). Our non-resonant plasmonic metamaterial allows a curved reflector to mimic a flat mirror. Our theoretical predictions are validated by experiments mapping the surface light intensity at the wavelength 800 nm.

Published
2010
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38. Acoustic cloaking and mirages with flying carpets

Author

Diatta, Andre, Dupont, Guillaume, Guenneau, Sebastien, and Enoch, Stefan

Subjects
Physics - Optics, Mathematical Physics
Abstract

Carpets under consideration here, in the context of pressure acoustic waves propagating in a compressible fluid, do not touch the ground: they levitate in mid-air (or float in mid-water), which leads to approximate cloaking for an object hidden underneath, or touching either sides of a square cylinder on, or over, the ground. The tentlike carpets attached to the sides of a square cylinder illustrate how the notion of a carpet on a wall naturally generalizes to sides of other small compact objects. We then extend the concept of flying carpets to circular cylinders. However, instead of reducing its scattering cross-section like in acoustic cloaks, we rather mimic that of another obstacle, say a square rigid cylinder. For instance, show that one can hide any type of defects under such circular carpets, and yet they still scatter waves just like a smaller cylinder on its own. Interestingly, all these carpets are described by non-singular acoustic parameters. To exemplify this important aspect, we propose a multi-layered carpet consisting of isotropic homogeneous fluids with constant bulk modulus and varying density which works over a finite range of wavelengths. We have discussed some applications, with the sonar boats or radars cases as typical examples. For instance, we would like to render a pipeline lying on the bottom of the sea or floating in mid-water undetectable for a boat with a sonar at rest just above it on the surface of the sea. Another possible application would be protecting parabolic antennas., Comment: 26 pages, 9 figures. Key words: Mathematical methods in physics; Mathematical Physics, electromagnetic theory; Metamaterials;Anisotropic optical materials; invisibility; cloak

Published
2009
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39. Revolution analysis of three-dimensional arbitrary cloaks

Author

Dupont, Guillaume, Guenneau, Sébastien, Enoch, Stefan, Demésy, Guillaume, Nicolet, Andre, Zolla, Frédéric, and Diatta, Andre

Subjects
Physics - Optics, Mathematical Physics, Physics - Computational Physics
Abstract

We extend the design of radially symmetric three-dimensional invisibility cloaks through transformation optics to cloaks with a surface of revolution. We derive the expression of the transformation matrix and show that one of its eigenvalues vanishes on the inner boundary of the cloaks, while the other two remain strictly positive and bounded. The validity of our approach is confirmed by finite edge-elements computations for a non-convex cloak of varying thickness., Comment: 6 pages, 4 figures

Published
2009
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41. Role of nanophotonics in the birth of seismic megastructures

Author

Brûlé Stéphane, Enoch Stefan, and Guenneau Sébastien

Subjects
metasurfaces, seismic metamaterials, cloaking, lensing, earthquake protection, seismic ambient noise, Physics, QC1-999
Abstract

The discovery of photonic crystals 30 years ago in conjunction with research advances in plasmonics and metamaterials, has inspired the concept of decameter scale metasurfaces, coined seismic metamaterials for an enhanced control of surface (Love and Rayleigh) and bulk (shear and pressure) elastodynamic waves. These powerful mathematical tools of coordinate transforms, effective medium and Floquet-Bloch theories which have revolutionized nanophotonics, can be translated in the language of civil engineering and geophysics. Experiments on seismic metamaterials made of buried elements in the soil demonstrate that the fore mentioned tools make a possible novel description of complex phenomena of soil-structure interaction during a seismic disturbance. But the concepts are already moving to more futuristic concepts and the same notions developed for structured soils are now used to examine the effects of buildings viewed as above surface resonators in megastructures such as metacities. But this perspective of future should not make us forget the heritage of the ancient peoples. Indeed, we finally point out the striking similarity between an invisible cloak design and the architecture of some ancient megastructures as the antique Gallo-Roman theaters and amphitheatres.

Published
2019
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42. Quasi-TEM modes in rectangular waveguides: a study based on the properties of PMC and hard surfaces

Author

Pierre, Raphaël, Tayeb, Gérard, Gralak, Boris, and Enoch, Stefan

Subjects
Physics - Classical Physics
Abstract

Hard surfaces or magnetic surfaces can be used to propagate quasi-TEM modes inside closed waveguides. The interesting feature of these modes is an almost uniform field distribution inside the waveguide. But the mechanisms governing how these surfaces act, how they can be characterized, and further how the modes propagate are not detailed in the literature. In this paper, we try to answer these questions. We give some basic rules that govern the propagation of the quasi-TEM modes, and show that many of their characteristics (i.e. their dispersion curves) can be deduced from the simple analysis of the reflection properties of the involved surfaces.

Published
2008
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43. Directive Emission from Defect-Free Dodecagonal Photonic Quasicrystals: A Leaky-Wave Characterization

Author

Micco, Alessandro, Galdi, Vincenzo, Capolino, Filippo, Della Villa, Alessandro, Pierro, Vincenzo, Enoch, Stefan, and Tayeb, Gerard

Subjects
Physics - Optics
Abstract

In this paper, we study the radiation from embedded sources in two-dimensional finite-size "photonic-quasicrystal" (PQC) slabs made of dielectric rods arranged according to a 12-fold symmetric aperiodic tiling. The results from our investigation, based on rigorous full-wave simulations, show the possibility of achieving broadside radiation at multiple frequencies, with high-directivity (e.g., 15 dB) and low-sidelobes (e.g., -12 dB). We also show that leaky waves are supported by a PQC slab, and that the beamwidth is directly proportional to the leaky-wave attenuation constant, which provides a physically-incisive interpretation of the observed radiation characteristics., Comment: 7 pages, 7 figures; slight change in the title, major revision in the text and figures. Accepted for publication in Phys. Rev. B

Published
2007

45. Directive emission from defect-free dodecagonal photonic quasicrystals: A leaky wave characterization

Author

Micco, Alessandro, Galdi, Vincenzo, Capolino, Filippo, Della Villa, Alessandro, Pierro, Vincenzo, Enoch, Stefan, and Tayeb, Gérard

Subjects
dielectric materials, geometrical optics, photonic crystals, quasicrystals, rods, slabs, physics.optics, Physical Sciences, Chemical Sciences, Engineering, Fluids & Plasmas
Abstract

In this paper, we study the radiation from embedded sources in two-dimensional finite-size "photonic-quasicrystal" (PQC) slabs made of dielectric rods arranged according to a 12-fold symmetric aperiodic tiling. The results from our investigation, based on rigorous full-wave simulations, show the possibility of achieving broadside radiation at multiple frequencies, with high directivity (e.g., 15 dB) and low sidelobes (e.g., -12 dB). We also show that leaky waves are supported by a PQC slab and that the beamwidth is directly proportional to the leaky wave attenuation constant, which provides a physically incisive interpretation of the observed radiation characteristics. © 2009 The American Physical Society.

Published
2009

46. A comparative study of directive emission from photonic quasicrystals

Author

Micco, Alessandro, Galdi, Vincenzo, Pierro, Vincenzo, Della Villa, Alessandro, Capolino, Filippo, Enoch, Stefan, and Tayeb, Gérard

Subjects
Engineering, Communications Engineering, Electronics, Sensors and Digital Hardware, Physical Sciences, Atomic, Molecular and Optical Physics, photonic quasicrystals, directive emission, aperiodic tilings, Communications engineering, Electronics, sensors and digital hardware, Atomic, molecular and optical physics
Abstract

In this paper, we present a comparative study of the emission properties of line sources embedded in two-dimensional finite-size aperiodically-ordered "photonic-quasicrystal" slabs made of dielectric cylinders arranged according to representative categories of aperiodic tilings. Our study, based on a rigorous full-wave numerical method, indicates the possibility of achieving directive low-sidelobe emission at several frequencies. In this connection, parametric studies are presented, and similarities and differences with the periodic case are highlighted.

Published
2008

47. Aperiodic-Tiling-Based Mushroom-Type High-Impedance Surfaces

Author

Gallina, Ilaria, Della Villa, Alessandro, Galdi, Vincenzo, Pierro, Vincenzo, Capolino, Filippo, Enoch, Stefan, Tayeb, Gérard, and Gerini, Giampiero

Subjects
antenna ground-planes, artificial impedance surfaces, artificial magnetic conductors, quasi-crystals, Electrical and Electronic Engineering, Communications Technologies, Networking & Telecommunications
Abstract

This letter deals with a study of aperiodically ordered textured (mushroom-type) high-impedance surfaces (HISs), and their possible application as artificial-magnetic-conductor groundplanes for low-profile directive antennas. In this framework, results from full-wave simulations are presented in order to characterize the electromagnetic response (in terms of impedance matching, directivity, and surface-wave suppression) of selected configurations based on representative categories of aperiodic tilings, and compare them with those of standard periodic HISs. © 2008 IEEE.

Published
2008

48. High-Impedance Surfaces with Aperiodically-Ordered Textures

Author

Gallina, Ilaria, Della Villa, Alessandro, Galdi, Vincenzo, Pierro, Vincenzo, Capolino, Filippo, Enoch, Stefan, and Tayeb, Gerard

Abstract

This paper deals with a study of textured (mushroom-type) high-impedance substrates based on aperiodic-tiling geometries. In this connection, preliminary results from full-wave simulations are presented in order to explore possible applications as artificial-magnetic-conductor ground-planes for low-profile directive antennas. © 2007 IEEE.

Published
2007

49. Localized modes in photonic quasicrystals with Penrose-type lattice.

Author

Della Villa, Alessandro, Enoch, Stefan, Tayeb, Gérard, Capolino, Filippo, Pierro, Vincenzo, and Galdi, Vincenzo

Subjects
Stem Cell Research, Optical Physics, Electrical and Electronic Engineering, Communications Technologies, Optics
Abstract

We investigate the properties of the resonant modes that occur in the transparency bands of two-dimensional finite-size Penrose-type photonic quasicrystals made of dielectric cylindrical rods. These modes stem from the natural local arrangements of the quasicrystal structure rather than, as originally thought, from fabrication-related imperfections. Examples of local density of states and field maps are shown for different wavelengths. Calculations of local density of states show that these modes mainly originate from the interactions between a limited numbers of rods.

Published
2006

50. A flexible metasurface to improve knee MRI

Author

Amat, Hugo, primary, Moussu, Marine, additional, Vergara Gomez, Tania S., additional, Trabelsi, Amira, additional, Enoch, Stefan, additional, Bendahan, David, additional, Abdeddaim, Redha, additional, and Dubois, Marc, additional

Published
2023
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