The thesis presents a surface constituting arrays of periodic patches, which may serve as the metasurface to synthesize the Luneburg lens. The main purpose is by using different sizes of patches to achieve different refractive index at each stage, and get the proper function of Luneburg lens. We propose several plasmonic lens in this thesis showing their design philosophy, details, and try to refine the performance of these lens. We also put them together and make comparisons. We deliver a method to build a well-functioned Luneburg lens step by step in the context. Starting with defining surface impedance and giving formulas to turn it into a refractive index for synthesizing Luneburg lens. Most importantly, we make a linkage between periodic structures and Luneburg lens in the work.