An omnidirectional retroreflector based on the transmutation of dielectric singularities

Gui, Yang; Ong, C. K.; Tyc, Tomáš; Leónhardt, Ulf

doi:10.1038/nmat2489

Cited by 187 publications

(143 citation statements)

References 29 publications

(24 reference statements)

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“…The manufacture efficiency of our device was mathematically improved by adopting a rescaled thermal equation and fully taking advantage of the abundance of natural materials with a wide range of thermal conductivity available from nearly zero to a value of 41000, which is impossible in the fabrication of EM devices. 3,9 Our work unambiguously proves the feasibility of extending EM TO devices into the thermal area and the robustness of the multilayer technique in fabricating complicated thermal devices, which may pave a new path to manipulate the dynamic heat flux for novel technological applications.…”

Section: Introductionsupporting

confidence: 52%

“…[1][2][3][4][5][6][7][8] The TO technique has also led to the creation of many other important EM devices with functionalities previously deemed impossible or unconceivable. [9][10][11] In general, this coordinate operation can be applied to different partial differential equations governing the behaviors of other physical phenomena such as thermal flux, [12][13][14][15][16][17][18][19][20][21][22][23] acoustic wave, [24][25][26][27] and matter or quantum [28][29][30] waves, demonstrating important scientific and application potentials.…”

Section: Introductionmentioning

confidence: 99%

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A transient thermal cloak experimentally realized through a rescaled diffusion equation with anisotropic thermal diffusivity

et al. 2013

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Transformation optics has made a major contribution to the advancement of modern electromagnetism and related research assisted by the development of metamaterials. In this work, we applied this concept to the thermodynamics using the coordinate transformation to the time-dependent heat diffusion equation to manipulate the heat flux by predefined diffusion paths. Experimentally, we demonstrated a transient thermal cloaking device engineered with effective thermal materials and successfully hid a centimeter-sized vacuum cavity. A rescaled heat equation accounting for all the pertinent parameters of various ingredient materials was proposed to greatly facilitate the fabrication. Our results unambiguously demonstrate the practical possibility of implementing complex transformed thermal media with high accuracy and acquiring several unprecedented thermodynamic functions, which we believe will help to broaden the current research and pave a new path to manipulate heat for novel device applications.

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Section: Introductionsupporting

confidence: 52%

Section: Introductionmentioning

confidence: 99%

A transient thermal cloak experimentally realized through a rescaled diffusion equation with anisotropic thermal diffusivity

et al. 2013

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“…We note that based on the idea of "transmutation," an omnidirectional retroreflector, which originally requires material parameter with polynomial type of singularity, has been successfully fabricated in experiment. 18 The other way is to implement the design using a "reduced set of parameters," which means an approximate set of parameters in the field of transformation optics. This is the way by which the invisibility cloak was first realized.…”

Section: Appendix C: Possible Means Of Experimental Realization and Amentioning

confidence: 99%

“…12,13 The former offers a wide range of possibilities to locally tailor the electromagnetic ͑EM͒ response [14][15][16] while the latter allows the transmutation of dielectric singularities into a manageable topological defect. 17,18 One intriguing astroinspired optical device is motivated by the black hole, a fascinating celestial phenomenon. It is characterized essentially by a radially graded refractive index n͑r͒ϳ1 / r ␣/2 .…”

mentioning

confidence: 99%

Graded index photonic hole: Analytical and rigorous full wave solution

Liu

Lin

et al. 2010

Phys. Rev. B

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We present a rigorous full wave approach to the omnidirectional photonic hole ͑PH͒, an optical system inspired by celestial phenomena and characterized by a radially graded refractive index n͑r͒ϳ1 / r ␣/2 . It is analytically demonstrated that light capture is effective for ␣ Ն ␣ c = 2. Our analyses are corroborated by precise numerical simulations of steady-state and time-evolution behaviors. The simulations indicate that the optical energy entering the PH system can be kept in captivity for a time duration t d scaling as t d ϳ 1 / ͑␣ c − ␣͒ when ␣ approaches ␣ c . A crucial difference in the time evolution of fields is shown between the cases with ␣ close to and equal to ␣ c . DOI: 10.1103/PhysRevB.82.054204 PACS number͑s͒: 42.25.Ϫp, 41.20.Jb Nature has been a source of inspiration to many scientific and technological advances. For a long time, the natureinspired designs of optical systems are predominantly based on mimicking structures appearing in the diversity of the biological world, leading to a thriving area of biomimetic or bioinspired photonics. [1][2][3][4] Typical examples in this area include, among others, the study of structural color 5-7 and artificial compound eyes. 8 In addition to imitating terrestially occurring structures, the design of novel optical components is recently inspired by mimicking celestial phenomena. Interesting examples are optical attractors and photon traps that mimic celestial mechanics. 9-11 These optical analogs of celestial phenomena may find niche applications in light control, optoelectronics, and solar-energy harvesting. Their fabrications are enabled by the advances of nanofabrication techniques and transformation optics. 12,13 The former offers a wide range of possibilities to locally tailor the electromagnetic ͑EM͒ response 14-16 while the latter allows the transmutation of dielectric singularities into a manageable topological defect. 17,18 One intriguing astroinspired optical device is motivated by the black hole, a fascinating celestial phenomenon. It is characterized essentially by a radially graded refractive index n͑r͒ϳ1 / r ␣/2 . 10,11,19 In contrast to the bioinspired photonics that directly solves Maxwell's equations, the astroinspired optical design starts with the study of ray trajectories. In the ray tracing limit, it is shown for integer power index ͑PI͒ ␣ that ␣ Ն 2 constitutes the condition for the ray trajectories to fall into the core of the system, resulting in an optical attractor ͑OA͒ or "photonic black hole," 10,11,19 in the sense that all light satisfying certain criterions will be held in captivity inside the system. However, the critical PI ␣ c for light trapping has not yet been identified under arbitrary wavelength conditions, and interesting phenomena occurring when ␣ comes ͑close͒ to ␣ c remain unexplored.In this paper, we present the first rigorous full wave analysis in the astroinspired photonics 9-11 for the photonic hole ͑PH͒ system. Starting with an arbitrary real ␣, the critical PI ␣ c = 2 for the capture of light is derived a...

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“…The strong interest is motivated by the possibility to tailor the electromagnetic response that a periodic structure of metamaterials allows, which promises to have a significant impact in physics, optics and material science. Effective permittivities and permeabilities of metamaterials designed to range from negative to positive values have many important applications such as invisible cloaks [7][8][9][10], superlenses [11][12][13], microwave horn antennas [14] as well as other electromagnetic devices [15,16].…”

Section: Introductionmentioning

confidence: 99%

Super/Zero Scattering Characteristics of Circular SRR Arrays

Yuan¹,

Forsberg²,

He³

2013

PIER

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Abstract-The ability to control the scattering property of an object is important in many applications. In this paper, we propose and study the scattering characteristics of a circular array of split-ring resonators (SRRs). By calculating the scattered energy spectrum, we show that the proposed structure has a localized surface plasmon resonance like behavior, which makes it useful as a super scatterer. Furthermore, in a special case, the proposed structure exhibits transparency to the illuminated waves, i.e., it does not scatter any energy at all and thus acts as a zero electromagnetic scattering object.

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An omnidirectional retroreflector based on the transmutation of dielectric singularities

Cited by 187 publications

References 29 publications

A transient thermal cloak experimentally realized through a rescaled diffusion equation with anisotropic thermal diffusivity

A transient thermal cloak experimentally realized through a rescaled diffusion equation with anisotropic thermal diffusivity

Graded index photonic hole: Analytical and rigorous full wave solution

Super/Zero Scattering Characteristics of Circular SRR Arrays

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