Journal ArticleDOI
Experimental Realization of a Magnetic Cloak
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TLDR
It is demonstrated, directly from Maxwell equations, that a specially designed cylindrical superconductor-ferromagnetic bilayer can exactly cloak uniform static magnetic fields, and this effect is experimentally confirmed in an actual setup.Abstract:
Invisibility to electromagnetic fields has become an exciting theoretical possibility. However, the experimental realization of electromagnetic cloaks has only been achieved starting from simplified approaches (for instance, based on ray approximation, canceling only some terms of the scattering fields, or hiding a bulge in a plane instead of an object in free space). Here, we demonstrate, directly from Maxwell equations, that a specially designed cylindrical superconductor-ferromagnetic bilayer can exactly cloak uniform static magnetic fields, and we experimentally confirmed this effect in an actual setup.read more
Citations
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From metamaterials to metadevices.
TL;DR: This Review summarizes research on photonic, terahertz and microwave electromagnetic metamaterials and metadevices with functionalities attained through the exploitation of phase-change media, semiconductors, graphene, carbon nanotubes and liquid crystals.
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Antiferromagnetic spintronics
TL;DR: This Review focuses on recent works that have addressed how to manipulate and detect the magnetic state of an antiferromagnet efficiently and briefly mentions the broader context of spin transport, magnetic textures and dynamics, and materials research.
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Experimental demonstration of a bilayer thermal cloak
TL;DR: A bilayer thermal cloak made of bulk isotropic materials is demonstrated, and it has been validated as an exact cloak and the robustness of this scheme is validated in both 2D (including oblique heat front incidence) and 3D configurations.
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A full-parameter unidirectional metamaterial cloak for microwaves
TL;DR: This work design and experimentally characterize a two-dimensional, unidirectional cloak that makes no approximations to the underlying transformation optics formulation, yet is capable of reducing the scattering of an object ten wavelengths in size and regains the performance characteristics promised by transformation optics.
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Full control and manipulation of heat signatures: cloaking, camouflage and thermal metamaterials.
TL;DR: A viable recipe for controlling and manipulating heat signatures using thermal metamaterials to empower cloaking and camouflage in heat conduction is demonstrated.
References
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Journal ArticleDOI
Controlling Electromagnetic Fields
TL;DR: This work shows how electromagnetic fields can be redirected at will and proposes a design strategy that has relevance to exotic lens design and to the cloaking of objects from electromagnetic fields.
Journal ArticleDOI
Metamaterial Electromagnetic Cloak at Microwave Frequencies
David Schurig,Jack J. Mock,B.J. Justice,Steven A. Cummer,John B. Pendry,Anthony F. Starr,David R. Smith +6 more
TL;DR: This work describes here the first practical realization of a cloak of invisibility, constructed with the use of artificially structured metamaterials, designed for operation over a band of microwave frequencies.
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Optical Conformal Mapping
TL;DR: A general recipe for the design of media that create perfect invisibility within the accuracy of geometrical optics is developed, which can be applied to escape detection by other electromagnetic waves or sound.