Cooling and trapping of atoms and molecules by a resonant laser field
References (4)
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Cited by (109)
Frontiers in green radiochemistry: New optimized quantum approach to laser separation of isotopes and transmutation of radioactive waste
2022, Green Chemistry and Computational Chemistry: Shared Lessons in SustainabilityCatalysis as an effective tool of green chemistry: Novel electrodynamic and quantum chemical computational approaches to catalytic processes modelling
2022, Green Chemistry and Computational Chemistry: Shared Lessons in SustainabilityMultiphoton Spectroscopy of Atoms and Nuclei in a Laser Field: Relativistic Energy Approach and Radiation Atomic Lines Moments Method
2019, Advances in Quantum ChemistryCitation Excerpt :Electron, atoms, or plasmas in the considered processes are encountered by a laser pulse and can directly or by creating radiation, react with the nucleus. One should remind, for example, the laser– and x-ray–nucleus interactions in the context of α, β-decay or x-ray-driven gamma emission of nuclei, γ-induced nuclear reactions in plasma radiated by a superintense laser, neutron production in laser plasma, etc.1–6,16–29,153–174,175–207 In conjunction with moderate acceleration of the target nuclei, it allows principally to achieve realization of multiphoton phenomena, nuclear Rabi oscillations, or more advanced quantum optical schemes in nuclei. It should be reminded that the most typical current problems to be solved in multiphoton spectroscopy of atomic systems include determination (calculation) of the k-photon emission and absorption probabilities and atomic levels shifts (AC Stark effect), study of dynamical stabilization and multiphoton excitation and ionization rates, cross sections, etc.
Laser cooling and trapping of polariton
2017, Computational Condensed MatterCitation Excerpt :This result clearly justifies the transition probability behavior. Previous work [54] has demonstrated cooling and trapping electron using laser techniques to increase the phase space density of particle beams in storage rings. However, there is considerable interest in non-isolated particles as polariton, where laser techniques are not yet applicable.
Simulations of a frequency-chirped magneto-optical trap of MgF
2023, Physical Review A