Squeezing electromagnetic energy with a dielectric split ring inside a permeability-near-zero metamaterial

Details Squeezing electromagnetic energy with a dielectric split ring inside a permeability-near-zero metamaterial Squeezing electromagnetic energy with a dielectric split ring inside a permeability-near-zero metamaterial

2009-07-27

arxiv.org/abs/0907.4607v2

Phys. Rev. B 81, 085117 (2010)

Physics

Optics

17pages, 4 figures

Scientific paper

A novel electromagnetic energy squeezing mechanism is proposed based on the special properties of permeability-near-zero metamaterials. Nearly no energy stream can enter a conventional dielectric region positioned inside a permeability-near-zero material. When a source is surrounded by a dielectric split ring (encloser with a gap opened), the electromagnetic energy generated by the source is forced to propagate through the gap. When the gap is narrow, the energy stream density becomes very large and makes the magnetic field enhanced drastically in the gap. The narrow gap can be long and bended. This provides us a method to obtain strong magnetic field without using resonance enhancement.

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