1) controllable six-well optical trap
可控制光学六阱
1.
We propose a novel scheme to form a controllable six-well optical trap for cold atoms or molecules by using an optical system of a binary π-phase plate and a lens illuminated by a plane light wave.
提出了一种利用单束平面光波照明二元π相位板与透镜组合系统实现冷原子或冷分子囚禁的可控制光学六阱的方案,计算与分析了该方案产生的光学势阱的光强分布和光学六阱的特征参数、强度梯度及其曲率,讨论了从光学六阱到双阱或到单阱的演化过程,研究表明通过改变二元π相位板上的相位分布,即可实现光学六阱到双阱或到单阱的连续双向演化。
2) controllable eight-well optical trap
可控制光学八阱
1.
We propose a novel scheme to form a controllable eight-well optical trap for cold atoms or molecules by using an optical system of a binary π-phase plate and a lens illuminated by a plane light wave.
提出了一种利用单束平面光波照明二元π相位板与透镜组合系统实现冷原子或冷分子囚禁的可控制光学八阱的方案,计算了光学势阱的光强分布和可控光学八阱的几何与光学特征参数、强度梯度及其曲率;讨论了从光学八阱到四阱或到双阱的演化过程。
3) controllable four-well optical trap
可控制光学四阱
1.
We propose a novel scheme to form a controllable four-well optical trap for cold atoms or molecules by using an optical system composed of an amplitude cosine grating and a lens illuminated by a plane light wave.
提出了一种利用单光束照明余弦型振幅光栅与透镜组合系统实现冷原子或冷分子囚禁的可控制光学四阱新方案,计算了四阱的光强分布,讨论了从光学四阱到双阱或单阱的演化过程,并导出了光学四阱的几何参量、光强分布、强度梯度及其曲率与光学透镜系统参量间的解析关系,获得了四阱间距与光栅空间频率的关系。
2.
In this paper, we propose a novel scheme to build a controllable four-well optical trap for cold atoms or molecules by using an optical system of a binary π-phase plate and a lens illuminated by a plane light wave.
提出了一种利用单光束照明二元π相位板与透镜组合系统实现冷原子或冷分子囚禁的可控制光学四阱新方案。
4) controllable double-well optical trap
可控制光学双阱
1.
In this paper,we propose a novel scheme to form a controllable double-well optical trap for cold atoms or molecules by using a system composed of a binary π-phase plate and a lens illuminated by a plane light wave.
提出了一种采用单光束照明二元π相位板与透镜组合系统产生的适用于冷原子与分子囚禁的可控制光学双阱方案 。
5) controllable electrostatic double-well trap
可控制静电双阱
1.
A controllable electrostatic double-well trap for cold polar molecules
一种实现冷分子囚禁的可控制静电双阱方案
6) Optical traps
光学陷阱
补充资料:单量子阱(见量子阱)
单量子阱(见量子阱)
single quantum well
单且子阱sillgle quantum well见量子阱。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条