Deep laser cooling of atoms on narrow-line optical transitions in polarized fields: Scaling law

Результат исследования: Публикации в книгах, отчётах, сборниках, трудах конференцийстатья в сборнике материалов конференциинаучнаярецензирование

Аннотация

The theoretical description of the kinetics of neutral atoms in the polarized light fields with all the atomic levels, the coherence, the recoil effect is both important and challenging problem. The first step toward understanding mechanisms of interaction between atoms and light was called quasi-classical approach. [1,2] It lies in the fact that the equations for the density matrix can be reduced to the Fokker-Planck equation for the Wigner function in the phase space. But the semiclassical approximation is inapplicable for investigating the cooling of atoms at clock transitions, because the quasiclassical parameter (the recoil frequency) is not small (in comparison with the natural line width). Later quantum methods were developed [3], for example, the secular approach which describes cooling and localization of atoms in the optical potential. Secular approximation fails high vibrational levels and for atoms in high vibrational states.

Язык оригиналаанглийский
Название основной публикацииEuropean Quantum Electronics Conference, EQEC_2019
ИздательOSA - The Optical Society
ISBN (электронное издание)9781557528209
СостояниеОпубликовано - 1 янв 2019
СобытиеEuropean Quantum Electronics Conference, EQEC_2019 - Munich, Великобритания
Продолжительность: 23 июн 201927 июн 2019

Серия публикаций

НазваниеOptics InfoBase Conference Papers
ТомPart F143-EQEC 2019

Конференция

КонференцияEuropean Quantum Electronics Conference, EQEC_2019
СтранаВеликобритания
ГородMunich
Период23.06.201927.06.2019

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  • Цитировать

    Ilenkov, R., Prudnikov, O., Taichenachev, A., & Yudin, V. (2019). Deep laser cooling of atoms on narrow-line optical transitions in polarized fields: Scaling law. В European Quantum Electronics Conference, EQEC_2019 [2019-ea_p_25] (Optics InfoBase Conference Papers; Том Part F143-EQEC 2019). OSA - The Optical Society.