Photonic crystals are composed of periodic dielectric that has photonic band gap. It can effectively control the light of propagation. In this thesis, we analysis the band gaps of the square lattice photonic by plane wave expansion, and design of optical power divider by using time-domain coupled-mode theory. We simulated the light wave propagation in power divider by using finite-difference time-domain method. We also discussed the relationship of the cylindrical size and the transmission coefficient in the divider. Besides, We have simulated the structure of coupled-resonator optical waveguides. Simulation results show that the double dense cubic photonic crystals have wide high-transmission bandwidths near the center of wavelength. Further, we proposed the power splitter of multimode interference in photonic crystal waveguides. It is a nanometer scale of optical component and it has the ability to guide, split and filter. The results of this study should be applied for photonic integrated circuit in the future.