Towards the detection of high-contrast Cs CPT resonances using a single modulated diode laser

X. Liu, E. Kroemer, J. Merolla, R. Boudot
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引用次数: 1

Abstract

This paper reports the key development steps of a Bi-Frequency Bi-Polarization (BiFBiP) laser system that generates from a single externally-modulated Distributed Feedback (DFB) laser source two phase-coherent optical lines resonant on the Cs D1 line (894.6 nm), frequency-splitted by 9.192 GHz and exhibiting linear crossed polarizations. Two different architectures, based on electro-optic modulators as key components for optical sidebands generation, are presented. Residual frequency stability performances of the DFB laser source are measured to be less than 10−11 for integration times up to 200 s. Phase noise performances of the optically carried microwave signal as well as polarization analysis at the output of the BiFBiP system are reported. Using this laser system, Coherent Population Trapping (CPT) resonances with contrast up to 5.8 % in a mm-scale vapor cell and 22 % in a cm-scale cell are preliminary reported.
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利用单调制二极管激光器探测高对比度CPT共振
本文报道了双频双偏振(BiFBiP)激光系统的关键开发步骤,该系统由单个外调制分布反馈(DFB)激光源产生在Cs D1线(894.6 nm)上共振的两条相参光线,频率分裂为9.192 GHz,呈现线性交叉极化。提出了两种基于电光调制器作为光边带生成关键部件的结构。在200 s的积分时间内,DFB激光源的剩余频率稳定性能小于10−11。本文报道了光载微波信号的相位噪声特性以及系统输出端的偏振分析。利用该激光系统,初步报道了相干居群捕获(CPT)在毫米尺度蒸汽电池中对比度高达5.8%,在厘米尺度电池中对比度高达22%。
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