Zanon T, Guerandel S, de Clercq E, Holleville D, Dimarcq N, Clairon A
SYRTE, Observatoire de Paris, Observatoire, France.
Phys Rev Lett. 2005 May 20;94(19):193002. doi: 10.1103/PhysRevLett.94.193002. Epub 2005 May 17.
We report the observation of Raman-Ramsey fringes using a double lambda scheme creating coherent population trapping in an atomic ensemble combined with pulsed optical radiations. The observation was made in a Cs vapor mixed with N2 buffer gas in a closed cell. The double lambda scheme is created with lin perpendicular lin polarized laser beams leading to higher contrast than the usual simple lambda scheme. The pulsed trapping technique leads to narrow fringe widths scaling as 1/(2T) with high contrasts which are no longer limited by the saturation effect. This technique operates in a different way from the classical Ramsey sequence: the signal is done by applying a long trapping pulse to prepare the atomic state superposition, and fringe detection is accomplished by optical transmission during a short second trapping pulse without any perturbation of the dark state.
我们报告了利用双拉姆达方案在原子系综中产生相干布居囚禁并结合脉冲光辐射来观测拉曼 - 拉姆齐条纹的结果。该观测是在封闭腔内混合了氮气缓冲气体的铯蒸汽中进行的。双拉姆达方案由线偏振垂直于线偏振的激光束形成,相较于通常的简单拉姆达方案,能产生更高的对比度。脉冲囚禁技术使得条纹宽度变窄,其与1/(2T)成比例,且具有高对比度,不再受饱和效应的限制。该技术的运行方式与经典拉姆齐序列不同:通过施加长囚禁脉冲来制备原子态叠加以产生信号,并且在第二个短囚禁脉冲期间通过光透射来完成条纹检测,而不会对暗态造成任何扰动。
