METHOD OF SELF-ORGANIZING AN OPTICALLY ACTIVE ENSEMBLE OF DIAMAGNETIC ELECTRON-ION NANOPARTICLES Russian patent published in 2018 - IPC G01N21/00 H01S3/94 

FIELD: quantum technology.

SUBSTANCE: invention relates to quantum technology. Method of self-organization of an optically active ensemble of diamagnetic electron-ion nanoparticles is to create a coherence volume, where each molecule is energy-resonantly affected by the vector sum of the field collective consisting of the electric and magnetic fields, induced in molecules by an elastic collision with the broadening particles, the electric and magnetic fields of biharmonic pump radiation at frequencies ω₁, ω₂, electric and magnetic fields of Rayleigh scattering. Two-dimensional feedback leads to an effective conversion of the collective field energy and the energy of the electron-rotation-vibrational motion of molecules in diamagnetic energy and its accumulation to a threshold value in the region of a high level of the working transition in a time less than one elastic collision of the molecule with the broadening particle. Transformation of the collective field energy and the electron-rotation-vibrational motion of molecules into their diamagnetic energy is realized due to the induction of the refractive index of the molecular gas with the formation of a nonlinear cross-section EH. This process allows molecules in different parts of the coherence volume of the biharmonic pumping radiation to correct the amplitude-phase relations between elementary perturbations of molecules and to trigger the mechanism of two-dimensional feedback on two vibrational-rotational or two rotational transitions.

EFFECT: technical result consists in providing the possibility of creating a technology for high-speed self-organization of an optically active ensemble of electron-ion nanoparticles with the properties of a diamagnetic photonic crystal for a large number of practical applications.

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