Van der Waals - Zeeman transitions of slow metastable argon atoms Ar*(3P2)

M. Hamamda, T. Taillandier-Loize, F. Péralès, G. Dutier, M. Gorza, J. Baudon, M. Ducloy
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Abstract

Metastable argon atoms Ar*(3P2), produced by electron bombardment of a nozzle beam of ground state Ar atoms, are slowed down from their initial thermal velocity of 560 m/s down to a few tens of m/s, using a standard Zeeman slower. In this decelerator [1], a repulsive force is induced by a counter-propagating σ+-polarized laser beam, locked in frequency on the 3P2-3D3 closed transition (λ = 811.5 nm) and then detuned by 340 MHz. A special profile of longitudinal magnetic field is adjusted in order to maintain atoms in resonance with light all over the device, by compensating the variable Doppler shift by the convenient Zeeman shift. Low velocities, e.g. 55 m/s, are accessible but due to spontaneous emission randomly distributed recoil momentums enlarge both angular and velocity distributions of the beam [2]. Nevertheless, by placing off axis collimating slits and grating, it is in principle possible to observe transmission and/or diffraction phenomena specific of low velocities.
慢亚稳氩原子Ar*(3P2)的Van der Waals - Zeeman跃迁
亚稳氩原子Ar*(3P2)是由基态氩原子喷嘴束的电子轰击产生的,使用标准塞曼减速器,亚稳氩原子Ar*(3P2)的初始热速度从560米/秒降低到几十米/秒。在该减速器[1]中,斥力由反向传播的σ+偏振激光束诱导,锁定在3P2-3D3闭合跃迁(λ = 811.5 nm)的频率上,然后失谐340 MHz。通过方便的塞曼频移补偿可变的多普勒频移,调整了纵向磁场的特殊剖面,以保持原子与整个装置的光共振。低速(例如55m /s)是可以达到的,但由于自发发射,随机分布的后坐力增大了光束的角和速度分布[2]。然而,通过放置离轴准直狭缝和光栅,原则上可以观察到低速特有的透射和/或衍射现象。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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