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Three-dimensional magnetic cloak working from DC to 250 kHz

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arxiv 1511.08005 v1 pith:Q2JYTTNT submitted 2015-11-25 physics.optics

Three-dimensional magnetic cloak working from DC to 250 kHz

classification physics.optics
keywords cloakingmagneticcloakdevicedynamicfrequenciespotentialpractical
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Invisible cloaking is one of major outcomes of the metamaterial research, but the practical potential, in particular for high frequencies (e.g., microwave to visible light), is fatally challenged by the complex material properties they usually demand. On the other hand, it will be advantageous and also technologically instrumental to design cloaking devices for applications at low frequencies where electromagnetic components are favorably uncoupled. In this work, we vastly develop the bilayer approach to create a three-dimensional magnetic cloak able to work in both static and dynamic fields. Under the quasi-static approximation, we demonstrate a perfect magnetic cloaking device with a large frequency band from zero to 250 kHz. The practical potential of our device is experimentally verified by using a commercial metal detector, which may lead us to having a real cloaking application where the dynamic magnetic field can be manipulated in desired ways.

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