Sheet-type metamaterial and sheet-type lens

The invention claimed is: 1. A sheet-type metamaterial to operate in a terahertz wave band, comprising: a film-shaped dielectric substrate; a first wire array formed on one surface of the dielectric substrate; and a second wire array formed on an opposite surface of the dielectric substrate, wherein the first wire array includes elongated metallic first cut wires of a predetermined length l aligned in a direction of a y-axis of the dielectric substrate with a gap g therebetween and in an x-axis direction perpendicular to the y-axis with space s therebetween, the second wire array includes second metallic cut wires having a same shape and length l as the first cut wires and aligned so as to overlap the first cut wires, the length l of each of the first cut wires and the second cut wires is set in a range from about 20 to about 320 μm, and with a wavelength λ at a usable frequency, the length l of the first cut wires and the second cut wires is about λ/2. 2. The sheet-type metamaterial according to claim 1 , wherein with a design frequency set in a range from 1.0 to 3.0 THz, a higher refractive index is obtained by reducing the space s from about 46 μm to about 5 μm with a frequency increase and by reducing a thickness d of the dielectric substrate from about 50 μm to about 23 μm. 3. The sheet-type metamaterial according to claim 1 , wherein with a design frequency set in a range from 0.3 to 0.9 THz, a higher refractive index is obtained by setting the space s at about 160 μm and reducing a thickness d of the dielectric substrate from about 50 μm to about 23 μm. 4. A sheet-type lens comprising a plurality of unit cells aligned on a film-shaped dielectric substrate, wherein the unit cells each include an elongated metallic first cut wire of a predetermined length l formed on one surface of the dielectric substrate, and a second metallic cut wire having a same shape as the first cut wire and formed on an opposite surface of the dielectric substrate so as to overlap the first cut wire, the first cut wires of the unit cells are aligned on the one surface of the dielectric substrate in an x-axis direction with a gap g therebetween and in a y-axis direction perpendicular to the x-axis direction with space s therebetween, the second cut wires of the unit cells are aligned on the opposite surface of the dielectric substrate in the x-axis direction with the gap g therebetween and in the y-axis direction perpendicular to the x-axis direction with the space s therebetween, the first cut wire and the second cut wire each have a long axis extending substantially parallel to the x-axis direction, the dielectric substrate has a region divided into n regions from a central part to an outer edge of the dielectric substrate, each region except an innermost region and an outermost region surrounds a region inside this region and is surrounded by a region external to this region, and a refractive index is reduced with an increasing distance from an inner region toward an outer region. 5. The sheet-type lens according to claim 4 , wherein the second cut wire has a same length l as the first cut wire, and with a thickness d of the dielectric substrate set at about 50 μm, the length l of each of the first cut wire and the second cut wire is a length approximate to a value to generate resonance at a design frequency. 6. The sheet-type lens according to claim 4 , wherein the refractive index is reduced with the increasing distance from the inner region toward the outer region by increasing the gap g with an increasing distance from the inner region toward the outer region.