Electromagnetically induced transparency (EIT) is a quantum interference effect that reduces light absorption over a narrow spectral region in a coherently driven atomic system. Using electron beam double exposure process, we fabricated erected U-shape nano resonators in an array with 600 nm periodicity both in x and y directions, covering the total area of 75 x 75 μm2 on a fused silica substrate. First, we analyzed the single planar and erected split-ring resonators by experiment and simulation. There are also two resonances including electric and magnetic responses both in the cases of single planar and erected split-ring resonators. We also combined four resonators to make response between each resonator by magnetic resonance. Second, we make three erected U-shape gold nano rings are integrated in a unit cell, in which the height of a gold nano ring is 110 nm. We present experimental as well as numerical simulation results pertaining to plasmonic resonances of erected U-shape gold nano rings under normal illumination. By introducing structural asymmetry, we found the EIT-like spectra in these erected gold nano rings in the case of perpendicular polarized illumination. Finally, a classical RLC circuit model was proposed to explain EIT-like spectra.