The main purpose of this thesis is to study the propagation of light and the bandstructure in graphene-dielectric multilayers. At first, the optical properties of graphene and the basic principle of electromagnetic wave is introduced. Next, the properties of light propagation such as reflection, transmission and absorption in TE mode and TM mode for single, double and multi-layer graphene-dielectric structures are studied by changing the angle of the incident light, the refractive index and the thickness of the dielectric layers. Using the transfer matrix and the Bloch’s theorem, the band structure for normal incidence of the graphene-embedded quarter-wave stack can be analyzed, which is different from the ones in traditional quarter-wave stack. The forbidden gaps at the zone boundary are shifted toward high frequency compared with the traditional quarter-wave stack. Moreover, the center of the Brillouin zone in graphene-embedded quarter-wave stack will split to mini gaps.