SYSTEMS OF DIATOMIC POLAR MOLECULES IN ONE-DIMENSIONAL GEOMETRY OF OPTICAL AND MAGNETO-OPTICAL TRAPS

Aim. The paper reviews modern theoretical and experimental studies by various authors in the field of the physics of dipole bosonic and fermionic quantum ultracold gases. Methodology. The procedures and methods for studying the two-dimensional and three-dimensional interaction of dipoles are briefly compared and analyzed. Results. We analyze the scattering of polar molecules depending on the parameters of their interaction: the energies of the dipoles, their mutual arrangement, the influence of external fields, and the parameters of the short-range interaction. Research implications. The urgency of developing a theoretical description of planar systems of diatomic polar molecules is demonstrated.

ultracold polar gases, optical traps

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