New Journal of Physics (Jan 2012)
Total transmission and super reflection realized by anisotropic zero-index materials
Abstract
We demonstrate theoretically and experimentally total transmission and super reflection which are realized by anisotropic zero-index materials (AZIMs). We show that total transmission will be observed when using a rectangular perfectly magnetic conductor (PMC)-coated object sandwiched by two AZIM slabs, which has the properties of μ _rx = 0 (in the normal direction to the wavefronts) and μ _ry = ε _rz = 1 for transverse-electric polarized incident waves. When the object is coated with a perfectly electric conductor (PEC), however, the incident waves will be totally reflected by the finite-sized object in the way of an infinite PEC plane, generating a super reflection. Closed-form formulas are derived to explain the physical mechanisms of total transmission and super reflection, which agree with the full-wave numerical simulations perfectly. Experimental samples of AZIM and PMC are designed, fabricated and measured in the microwave frequency, which show good transparent and super-reflecting effects.
