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利用中间态进行激光冷却以及对分子CaCs和CaNa的电子结构研究。

Laser Cooling with an Intermediate State and Electronic Structure Studies of the Molecules CaCs and CaNa.

作者信息

Moussa Amal, El-Kork Nayla, Zeid Israa, Salem Ehab, Korek Mahmoud

机构信息

Faculty of Science, Beirut Arab University, P.O. Box 11-5020, Riad El Solh, Beirut 1107 2809, Lebanon.

Department of Physics, Khalifa University, P.O. Box 127788, Abu Dhabi 51133, United Arab Emirates.

出版信息

ACS Omega. 2022 May 24;7(22):18577-18596. doi: 10.1021/acsomega.2c01224. eCollection 2022 Jun 7.

DOI:10.1021/acsomega.2c01224
PMID:35694530
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9178733/
Abstract

The ground and excited electronic states of the diatomic molecules CaCs and CaNa have been investigated by implementing the ab initio CASSCF/(MRCI + Q) calculation. The potential energy curves of the doublet and quartet electronic low energy states in the representation Λ have been determined for the two considered molecules, in addition to the spectroscopic constants , ω, , , and the values of the dipole moment μ and the dissociation energy . The determination of vibrational constants , , , and the turning points and up to the vibrational level = 100 was possible with the use of the canonical functions schemes. Additionally, the transition and the static dipole moments curves, Einstein coefficients, the spontaneous radiative lifetime, the emission oscillator strength, and the Franck-Condon factors are computed. These calculations showed that the molecule CaCs is a good candidate for Doppler laser cooling with an intermediate state. A "four laser" cooling scheme is presented, along with the values of Doppler limit temperature = 55.9 μK and the recoil temperature = 132 nK. These results should provide a good reference for experimental spectroscopic and ultra-cold molecular physics studies.

摘要

通过实施从头算CASSCF/(MRCI + Q)计算,对双原子分子CaCs和CaNa的基态和激发电子态进行了研究。除了光谱常数、ω、、、以及偶极矩μ和离解能的值之外,还确定了所考虑的两个分子在Λ表象中的双重态和四重态电子低能态的势能曲线。利用正则函数方案可以确定振动常数、、、以及直至振动能级 = 100的转折点和。此外,还计算了跃迁和静态偶极矩曲线、爱因斯坦系数、自发辐射寿命、发射振子强度和弗兰克-康登因子。这些计算表明,分子CaCs是具有中间态的多普勒激光冷却的良好候选者。提出了一种“四激光”冷却方案,以及多普勒极限温度 = 55.9 μK和反冲温度 = 132 nK的值。这些结果应为实验光谱学和超冷分子物理学研究提供良好的参考。

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