The influence of atomic internal state population on its translational motion in a quantized standing wave cavity field with spatial periodic structure is investigated.
基于原子作双光子共振跃迁的原子场缀饰态 ,讨论了驻波腔场中两能级原子的量子化平移运动与原子内态布居间的相互影响。
We have investigated the localization of the two atoms passing through a standing wave in an optical cavity by measuring the field quadrature.
研究了置于一个单模驻波光腔中的两个二能级原子,通过利用测量场的正交分量的方法定位这两个原子位置的情况。
In this paper, their interaction between the two-level atomic quantized translational motion and internal state population in a quantized standing-wave cavity are studied.
讨论了在驻波腔场中两能级原子的量子化平移运动与原子内态布居间的相互影响。
One of them is the sound standing wave resonance of fluid in cavity, the frequencies of which are invariable as velocity of flow is increasing.
经过分析,发现突出试验段壁上的流线型腔与突出的矩形腔在气流中被激振荡相似,存在着其频率与流速无关的腔中液体声共振谱峰;
One of them is the sound standing wave resonance of fluid in cavity, the frequencies of which are invariable as velocity of flow is increasing.
经过分析,发现突出试验段壁上的流线型腔与突出的矩形腔在气流中被激振荡相似,存在着其频率与流速无关的腔中液体声共振谱峰;
应用推荐