High resolution laser excitation spectra and Franck-Condon factors of A2Π−X2Σ+ electronic transition of MgF

IF 1 4区化学 Q4 PHYSICS, ATOMIC, MOLECULAR & CHEMICAL Chinese Journal of Chemical Physics Pub Date : 2022-02-01 DOI:10.1063/1674-0068/cjcp2109151

J. Gu, Zengjun Xiao, Chunting Yu, Qiang Zhang, Yang Chen, Dongfeng Zhao

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引用次数: 5

Abstract

Magnesium monofluoride (MgF) is proposed as an ideal candidate radical for direct laser cooling. Here, the rotationally resolved laser spectra of MgF for the A2Π− X2Σ+ electronic transition system were recorded by using laser induced fluorescence technique. The MgF radicals were produced by discharging SF6/Ar gas mixtures between the tips of two magnesium needles in a supersonic jet expansion. We recorded a total of 19 vibrational bands belonging to three sequences of Δ v=0, ±1 in the region of 348-370 nm. Accurate spectroscopic constants for both X2Σ+ and A2Π states are determined from rotational analysis of the experimental spectra. Spectroscopic parameters, including the Franck-Condon factors (FCFs), are determined from the experimental results and the Rydberg-Klein-Rees (RKR) calculations. Significant discrepancies between the experimentally measured and RKR-calculated FCFs are found, indicating that the FCFs are nearly independent of the spin-orbit coupling in the A2Π state. Potential energy curves (PECs) and FCFs determined here provide necessary data for the theoretical simulation of the laser-cooling scheme of MgF.

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MgF的高分辨激光激发光谱和A2π−X2∑+电子跃迁的Franck-Condon因子

单氟化镁(MgF)是一种理想的激光直接冷却自由基。本文利用激光诱导荧光技术记录了A2Π−X2Σ+电子跃迁体系中MgF的旋转分辨激光光谱。在超声速射流膨胀过程中，在两根镁针针尖间释放SF6/Ar混合气体，产生MgF自由基。在348 ~ 370 nm范围内共记录了19个振动带，分别属于Δ v=0，±1三个序列。通过对实验光谱的旋转分析，确定了X2Σ+和A2Π态的精确光谱常数。光谱参数包括frank - condon因子(ffs)，由实验结果和Rydberg-Klein-Rees (RKR)计算确定。实验测量的ffs与rkr计算的ffs之间存在显著差异，表明在A2Π状态下，ffs几乎与自旋-轨道耦合无关。本文确定的势能曲线(PECs)和ffs为MgF激光冷却方案的理论模拟提供了必要的数据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Chinese Journal of Chemical Physics 物理-物理：原子、分子和化学物理

CiteScore

1.90

自引率

10.00%

发文量

2763

审稿时长

3 months

期刊介绍： Chinese Journal of Chemical Physics (CJCP) aims to bridge atomic and molecular level research in broad scope for disciplines in chemistry, physics, material science and life sciences, including the following: Theoretical Methods, Algorithms, Statistical and Quantum Chemistry Gas Phase Dynamics and Structure: Spectroscopy, Molecular Interactions, Scattering, Photochemistry Condensed Phase Dynamics, Structure, and Thermodynamics: Spectroscopy, Reactions, and Relaxation Processes Surfaces, Interfaces, Single Molecules, Materials and Nanosciences Polymers, Biopolymers, and Complex Systems Other related topics