In this thesis, we expect to understand the optoelectronic properties of graphene by preparation of graphene-metal plasmonic waveguide and study the surface plasmon oscillation by Terahertz Time-Domain Spectroscopy meacurement. First, we predict the frequency of surface plasmon oscillation by theory. Then we can check the result by experiment. The grating structure was prepared by Semiconductor Manufacturing Technology. After all processes done on 6” silicon wafer, we chould cut it to 1cm x 1cm size by laser cutting. Finally, we transfered a CVD monolayer graphene onto the grating structure, completed the sample. Graphene has very good performance on mobility. We can combine graphene with grating structure for research of surface plasmon oscillation. By Terahertz Time-Domain Spectroscopy meacurement, transmission of sample is available. Finally, we can analysis the data to obtain frequency of surface plasmon oscillation and compare it with theory.