缓冲气体对87Rb原子磁致跃迁的影响

IF 0.5 4区 物理与天体物理 Q4 PHYSICS, MULTIDISCIPLINARY Journal of Contemporary Physics (Armenian Academy of Sciences) Pub Date : 2022-05-27 DOI:10.3103/S1068337222020165
A. D. Sargsyan, A. S. Sarkisyan, D. H. Sarkisyan
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引用次数: 0

摘要

研究了87Rb原子D2线在无磁场条件下发生的异常磁致跃迁(MI) Fg =1→Fe = 3,但在500g磁场条件下变得明显。在厚度为390nm的Rb原子蒸汽和压力分别为6torr和20torr的氖缓冲气体的纳米池中,研究了氖缓冲气体对激光辐射的共振吸收过程,研究了氖缓冲气体对MI跃迁的影响。使用NC可以实现高光谱分辨率和选择性地研究MI跃迁。结果发现,在电池中加入氖会导致MI跃迁的幅度和光谱展宽的减小(对于某些光学过程,加入缓冲气体会导致参数的改善)。连续波激光的最佳功率为10 μW。
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Effect of Buffer Gas Influence on Magnetically-Induced Transitions in 87Rb Atoms, D2 Line

Unusual magnetically-induced (MI) transitions Fg =1 → Fe = 3 of the 87Rb atoms, D2 lines, forbidden in the absence of magnetic field but becoming significant in magnetic fields >500 G have been studied. The effect of the buffer gas of neon on MI transitions was studied using the process of resonant absorption of laser radiation in a nanocell (NC) with Rb atomic vapors with an NC thickness L = 390 nm and a buffer gas of neon with the pressures of 6 and 20 Torr. The use of NC enables to achieve high spectral resolution and selectively study the MI transitions. It was found that the addition of neon to the cell results in a decrease in the amplitude of the MI transition and its spectral broadening (for some optical processes, the addition of a buffer gas results in an improvement of the parameters). The optimal power of a CW laser for the effective formation of the MI transitions was found to be equal to 10 μW.

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来源期刊
CiteScore
1.00
自引率
66.70%
发文量
43
审稿时长
6-12 weeks
期刊介绍: Journal of Contemporary Physics (Armenian Academy of Sciences) is a journal that covers all fields of modern physics. It publishes significant contributions in such areas of theoretical and applied science as interaction of elementary particles at superhigh energies, elementary particle physics, charged particle interactions with matter, physics of semiconductors and semiconductor devices, physics of condensed matter, radiophysics and radioelectronics, optics and quantum electronics, quantum size effects, nanophysics, sensorics, and superconductivity.
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