Plasmon-induced absorption in stacked metamaterials based on phase retardation

In this paper, based on the constructive interference of plasmonic dipolar and quadrupolar modes, a classical analogue of electromagnetically induced absorption(EIA) is demonstrated theoretically in a stacked metamaterial consisting of a short metal strip(which acts as a bright resonator) and a long metal strip(acting as a dark resonator), which has been reported to support the electromagnetically induced transparency(EIT) effect. The transition from EIA to EIT can be clearly observed in the absorbance spectra via varying the vertical spacing between two resonant oscillators. With the help of the coupled two-oscillator model, the phase shift between the bright and dark resonance modes is calculated by fitting the simulated absorbance spectra, which reveals the physical mechanisms behind constructive and destructive interference effects in EIT/EIA metamaterials.