1.
Research on 852nm Tunable Fiber Laser for Cs Atomic Clock Pumping Source
铯原子钟驱动源——852nm可调谐光纤激光器研究
2.
This is the basis for the well-known cesium clock, presently the standard of frequency and time.
这就是众所周知的铯原子钟的基础,它是目前的频率和时间基准。
3.
The Hong Kong Time Standard is provided by a caesium beam atomicclock. Accuracy within fractions of a microsecond a day is maintained.
天文台利用铯原子钟,提供香港的时间标准,该钟误差每日不超过一微秒。
4.
“ In the best cesium fountains the largest source of error are so-called cold collisions,” Gibble explained.
吉布解释:「最好的铯原子喷泉钟内,最大的误差来源是所谓的冷碰撞。
5.
cesium atomic beam frequency standard
铯原子射束的频率标准
6.
The heart of this atomic clock is a cesium atom that vibrates 9.2 billion times a second when heated to the temperature of boiling water.
这一原子钟的心脏是一个铯原子,在被加热到水的沸腾温度时,它的振动频率为每秒92亿次。
7.
Generation of Multimode Two-photon States at the Cesium D_2 Transition from OPO
铯原子D_2线的多模双光子态的实验制备
8.
Controllable Photon Band Gap with Standing Wave Drive in Cs Atomic System
铯原子中驻波场作用下可控光子带隙的研究
9.
Cesium Coherent Spectroscopy and Cesium Atoms Loading and Trapping of Magneto-Optical Trap and 3D Near Resonance Optical Lattice;
铯原子相干光谱及铯原子在磁光阱和三维近共振光学晶格中的装载与俘获
10.
DETERMINATION OF TRACE Rb AND Cs By GFAES
石墨炉原子发射光谱法测定痕量铷和铯
11.
Determination of Trace Rb and Cs by Furnace AAS
石墨炉原子吸收法测定矿石中痕量铷和铯
12.
Demonstration of Frequency Chain of Multiple Diode Lasers Relative to Cesium Transition;
不同激光器相对于铯原子跃迁频率链的实现
13.
Frequency Doubling with Periodically Poled KTP at the Fundamental Wave of Cesium D_2 Transition;
利用周期极化KTP晶体外腔倍频铯原子D_2线激光
14.
Numerical Calculation and Experimental Observation for Stark Energy Levels of Atomic Cesium at High Rydberg States
铯原子高激发态Stark能级的数值计算和实验观察
15.
The Cesium Double MOT and Cold Atom Transfer for Cavity QED;
用于腔量子电动力学实验的铯原子双磁光阱及其冷原子输运研究
16.
At a microkelvin, cesium has nearly the maximum possible cross section,” he continued.
在绝对温度10-6度下,铯原子的截面积几乎达到可能的最大值。
17.
The cesium atomic fountain used laser cooling and trapping is a new generation primary frequency standard.
应用激光冷却与囚禁的铯原子喷泉是新一代的频率基准。
18.
Experimental and Theoretical Research on Magneto-optical Trap and Optical Dipole Trap of Cesium Atoms;
铯原子磁光阱及光学偶极俘获的实验与理论研究