Analytical model of electron-photon linear and nonlinear interaction in crystalline nanostructured sitall

The article is devoted to a theoretical study aimed at establishing patterns resonant electron-photon interaction in a sitall nanomaterial. Designed by analytical model of electron-photon interaction(collaboration) for linear and nonlinear regime capacities for the specified material. Developed recommendations on the choice of basic parameters material relevant to their use in plasmon systems to obtain radio frequency spectra in an excited polariton field. An approach is proposed to study the nonlinear process dual-frequency interaction of optical radiation beams with the generation of difference frequencies and excitation of radio frequency surface waves in a planar metal-dielectric structure with crystalline sitall substrate.