Intrinsic left-handed electromagnetic properties in anisotropic superconductors

Abstract

Left-handed materials usually are realized in artificial subwavelength structures. Here we show that some anisotropic superconductors, such as Bi2Sr2CaCu2O8+δ, YBa2CuxOy and La2-xSrxCuO4, are intrinsic left-handed materials. The condition is that the plasma frequency in the c axis, ωc, and in the ab plane, ωab, and the operating frequency, ω, satisfy ωc<ω<ωab. In addition ω should be smaller than the superconducting energy gap to sustain superconductivity. We study the reflection and transmission of electromagnetic waves, and reveal negative refraction and backward wave with phase velocity opposite to the direction of energy flux propagation. We also discuss possible approaches of improvement, making these properties feasible for experimental validation. Being intrinsic left-hand materials, the anisotropic superconductors are promising for applications in novel electromagnetic devices in the terahertz frequency band.