Abstract
Surface plasmons have been extensively studied by using far field techniques. Today, new experiments can be developed by using scanning probe microscopes. In optics, the tip of a scanning near-field optical microscope has been used to detect or to excite the surface plasmon in the near-field region. In this paper, we propose a theoretical study of one of these optical experiments. A 3D model of excitation and detection by scanning tunneling optical microscope (STOM) of the surface plasmon is developed. The surface plasmon is excited by a 3D polarized gaussian beam in the Kretschmann configuration. We determine its propagation length. We also present a preliminary study of the interaction of the surface plasmon with the edge of a surface defect. Our results are in good accordance with experimental ones and show new effects.
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