Composite and Adiabatic Methods for Control in Quantum and Optical Technologies

​

The present project is dedicated on the development of new methods for coherent control of quantum states on the samples of ultra-cold atoms and on the application of the laws of quantum physics in classical optics for the creation of new technologies. The project realization is guaranteed by the close collaboration between both teams: the theoretical team developing the basic methods and experimental team with good expertise in the implementation of the proposed new methods. Through this project the research groups from different scientific institutions from Europe are consolidated.

Theoretical methodology involves several basic methods of theoretical and mathematical physics that allow analytical and numerical description of discrete quantum systems. It covers areas such as: classical and quantum optics, quantum coherent control, metamaterials, nonlinear optics, etc. The experimental realizations will be based on the manipulation of coherent states of rubidium atoms, cooled to tens of micro-kelvin, and the realization of new optical components.

The  project was reported on the firts stage (21.12.2017 - 11.10.2019) as "Very good". At the moment it has been terminated and a final report will be sublitted.