The modern optical technologies gives an opportunity to detect and control light-matter interactions at the single photon level. The quantum nature of light requires proper description of these interactions, which is called quantum optics.
The most efficient way of controlling the photon can be achieved through their interaction with nanostructure and nanoobject. The photons being coupled to nanoobjects form special quantum states, which are called “polaritons”.
Basing on that we develop new system for generating and controlling the light using dielectric, metallic, and semiconductor nanostructures. These results of our research will find the application for future generation of telecommunication systems on the way of increasing the operational rate and miniaturization of optical devices.Previous page
- Iteraction of solitons and dispersive waves in photonic-crystalline and precipitation-oscillating fibers
- Study Superradiance collective mechanism for the system of quantum of any number sources, located on the surface of the hyperbolic metasurfaces
- Control of quantum spatial and temporal coherence in mesoscopic optical systems with a strong exciton-photon coupling