The surface plasmon polaritons (SPPs) are evanescent electromagnetic surface waves coupled to the collective longitudinal oscillations of the free-electron gas in a metal propagating along a metal-dielectric interface. Thus, we utilize the subwavelength slits and the corresponding polarization of light to excite SPP. We investigate the double-slit structure with variation angle between the slits, the simulation result shows the maximum intensity of modulation is achieved for the polarization direction perpendicular to the axis of the tilt angle. There are two different slits structure were designed for simplify the experiment, other than double slits with 30 and 60 degree, the four slits produce the convenience for observation of parallel or perpendicular slits interference on the large (8 micrometer) gold surface. The experimental near-field image obtained by Scanning Near-Field Microscope was in a good agreement with numerical results and analytical results. Finally, the coherence of near-field interference was in discussion, and the coherence varies depend on the incident wavelength. We demonstrate the manipulation of surface plasmon polaritons, which can be utilized in nano-lithography, trapping and selective growth of nanoparticles, and other fields of nanotechnology.