Lamb-peak spectrum of the HD (2-0) P(1) line

arXiv: Atomic Physics Pub Date : 2020-05-06 DOI:10.1103/physrevresearch.2.023209
M. Diouf, F. Cozijn, K.-F. Lai, E. Salumbides, W. Ubachs
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引用次数: 12

Abstract

A saturation spectroscopy measurement of the P(1) line of the ($2-0$) band in HD is performed in a sensitive cavity-enhanced optical setup involving frequency comb calibration. The spectral signature is that of a Lamb-peak, in agreement with a density-matrix model description involving 9 hyperfine components and 16 crossover resonances of $\Lambda$-type. Comparison of the experimental spectra with the simulations yields a rovibrational transition frequency at 209,784,242,007 (20) kHz. Agreement is found with a first principles calculation in the framework of non-adiabatic quantum electrodynamics within 2$\sigma$, where the combined uncertainty is fully determined by theory.
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HD (2-0) P(1)谱线的羔羊峰谱
在涉及频率梳校准的敏感腔增强光学装置中,对HD ($2-0$)波段的P(1)线进行了饱和光谱测量。光谱特征为兰姆峰,与包含9个超精细组分和16个$\Lambda$型交叉共振的密度矩阵模型描述一致。将实验谱与模拟谱进行比较,得到旋转振动跃迁频率为209,784,242,007 (20)kHz。在2 $\sigma$内的非绝热量子电动力学框架中,与第一原理计算一致,其中组合不确定性完全由理论确定。
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arXiv: Atomic Physics
arXiv: Atomic Physics
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