This thesis studies the absorption characteristics and physic of microcavities with two-dimensional metallic hole array in the far infrared regime. We find two different resonant absorption characteristics by observing the changes in absorption intensity and resonance frequency with the shape and size of the holes . For square holes, the resonance frequency exhibits a blueshift as dimension of the square holes increases. For rectangular holes, the resonance frequency has a redshift as the aspect ratio of the rectangle holes gradually increases. We attribute the mechanism underlying the frequency shift to the resonance due to extraordinary optical transmission and cavity-resonance within metal-insulator-metal microcavities. In addition, we analyze qualitatively the variation in the resonant absorption intensity with the hole patterns and sizes by observing the electric field pattern in the cavity, which is attribute the mode difference and presence of the backside metal.