E. Ghasemian, M. K. Tavassoly. Population dynamics of ultra-cold atoms interacting with radiation fields in the presence of inter-atomic collisions[J]. Chinese Optics Letters, 2021, 19(12): 122701
- Chinese Optics Letters
- Vol. 19, Issue 12, 122701 (2021)
![Three-level atoms are in a Λ configuration, and the classical radiation fields have two different frequencies (right panel). Experimentally, such atomic systems consist of a binary mixture of BEC atoms, which are distributed in two hyperfine states and are transferred between them by the action of radiation fields[18] (left panel).](/richHtml/col/2021/19/12/122701/img_001.jpg)
Fig. 1. Three-level atoms are in a Λ configuration, and the classical radiation fields have two different frequencies (right panel). Experimentally, such atomic systems consist of a binary mixture of BEC atoms, which are distributed in two hyperfine states and are transferred between them by the action of radiation fields[18] (left panel).
Fig. 2. Effect of initial state on the time evolution of population inversion for
Fig. 3. Effect of G on the time evolution of population inversion in the case of number state versus the scaled time τ = Bt with N = 20.
Fig. 4. Evolution of population inversion for the number state (dash lines) and perturbed state (solid lines) against the scaled time τ = At, when B = 0.2A for different numbers of atoms in the system. The parity of number of atoms considerably affects the behavior of population inversion. The even parity leads to MQSTS phenomenon.
Fig. 5. Comparison between the results of the perturbation method and numerical solution of the Schrödinger equation for
Set citation alerts for the article
Please enter your email address
© Copyright 2018-2021 | Chinese Laser Press. All Rights Reserved 沪ICP备15018463号-20