Spectroscopy of resonantly saturated selective reflection from high-density rubidium vapor using the pump-probe technique

IF 2.3 3区 物理与天体物理 Q2 OPTICS
Vladimir Sautenkov , Sergey Saakyan , Andrei Bobrov , Leonid Khalutornykh , Boris B. Zelener
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引用次数: 0

Abstract

We study the resonant saturation of selective reflection at the interface between a transparent dielectric and high-density rubidium vapor on the D2-line. Our estimates suggest that, within the selected atomic density range, the dipole–dipole self-broadening of the line can vary from 13.2 to 39.6 GHz. Two tunable lasers are used as sources of pump and probe beams with orthogonal linear polarizations. The selective reflection spectra of the probe laser beam are studied at different atomic densities and pump beam intensities ranging from 0 to 8.8 kW cm−2. At high pump intensities, narrow structures are observed around the pump beam frequency, which are associated with power broadening effects. Increasing the pump intensity reduces the spectral width and the magnitude of the selective reflection resonances. The intensity dependence of the width and the magnitude is measured. By adjusting the pump intensity, it is possible to control the spectral width and reflectivity.

利用泵探针技术对高密度铷蒸汽的共振饱和选择性反射进行光谱分析
我们研究了透明电介质和高密度铷蒸气界面上 D2 线选择性反射的共振饱和。我们的估计结果表明,在选定的原子密度范围内,D2 线的偶极-偶极自扩频可在 13.2 至 39.6 GHz 之间变化。两个可调谐激光器被用作正交线性偏振的泵浦和探针光束源。在不同的原子密度和 0 至 8.8 kW cm-2 的泵浦光束强度下,对探针激光光束的选择性反射光谱进行了研究。在高泵浦强度下,可以观察到泵浦光束频率附近的狭窄结构,这与功率展宽效应有关。增加泵浦强度会减小选择性反射共振的光谱宽度和幅度。对宽度和幅度的强度依赖性进行了测量。通过调整泵浦强度,可以控制光谱宽度和反射率。
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来源期刊
CiteScore
5.30
自引率
21.70%
发文量
273
审稿时长
58 days
期刊介绍: Papers with the following subject areas are suitable for publication in the Journal of Quantitative Spectroscopy and Radiative Transfer: - Theoretical and experimental aspects of the spectra of atoms, molecules, ions, and plasmas. - Spectral lineshape studies including models and computational algorithms. - Atmospheric spectroscopy. - Theoretical and experimental aspects of light scattering. - Application of light scattering in particle characterization and remote sensing. - Application of light scattering in biological sciences and medicine. - Radiative transfer in absorbing, emitting, and scattering media. - Radiative transfer in stochastic media.
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