Rozouvan T. Optical properties of naostructured surface layers with different electrical conductivity.

Complex research (optics, atomic-force microscopy and theoretical) of carbon and surface nanostructures for copper, chromium and silica was conducted during thesis work. It was shown nanostructures forms result in optical anisotropy of the nanostructured surface. It was found Plasmon electron oscillations in metal significantly influence onto graphene optical conductivity, which was deposited on a copper surface in graphite main absorption band spectral region. Graphene optical conductivity in the region increases drastically. It was found propagating de Broglie waves of free electrons on the conducting surface have Gauss function profile of its intensity. It results in more detailed quantum-mechanical uncertainty principle, which determines spatial resolution of scanning tunneling microscopy measurements. Conductor and semiconductor carbon nanotubes and its structure were experimentally registered in this work.