Establishing a nearly closed cycling transition in a polyatomic molecule

arXiv: Atomic Physics Pub Date : 2020-06-02 DOI:10.1103/PhysRevA.103.043111
L. Baum, N. Vilas, Christian Hallas, B. Augenbraun, S. Raval, D. Mitra, J. Doyle
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引用次数: 17

Abstract

We study optical cycling in the polar free radical calcium monohydroxide (CaOH) and establish an experimental path towards scattering >$10^4$ photons. We report vibrational branching ratio measurements with accuracy at the $\sim$$5 \times 10^{-4}$ level and observe weak symmetry-forbidden decays to bending modes with non-zero vibrational angular momentum. Quantitative theory is developed to explain these observations and predict additional decay pathways. Additionally, we perform high-resolution spectroscopy of the $\widetilde{\text{X}}\,^2\Sigma^+(12^00)$ and $\widetilde{\text{X}}\,^2\Sigma^+(12^20)$ hybrid vibrational states of CaOH. These advances establish a path towards radiative slowing, 3D magneto-optical trapping, and sub-Doppler cooling of CaOH.
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在多原子分子中建立近乎封闭的循环跃迁
我们研究了极性自由基氢氧化钙(CaOH)的光循环,并建立了一条散射> $10^4$光子的实验路径。我们报告了在$\sim$$5 \times 10^{-4}$级别精确测量的振动分支比,并观察到弱对称禁止衰减到具有非零振动角动量的弯曲模式。定量理论的发展是为了解释这些观察和预测额外的衰变途径。此外,我们还对氢氧化钠的$\widetilde{\text{X}}\,^2\Sigma^+(12^00)$和$\widetilde{\text{X}}\,^2\Sigma^+(12^20)$杂化振动态进行了高分辨率光谱分析。这些进展为氢氧根的辐射减速、三维磁光捕获和亚多普勒冷却奠定了基础。
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arXiv: Atomic Physics
arXiv: Atomic Physics
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