Laser pulse design for coherent control of Rydberg lithium atoms

Laser pulse design for coherent control of Rydberg lithium atoms

Using time-dependent multilevel approach (TDML), this paper studies the dynamics of coherent control of Rydberg lithium atoms and demonstrates that Rydberg lithium atoms can be transferred to states of higher principal quantum number by exposing them to specially designed frequency-chirped laser pul...

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Veröffentlicht in:Chinese physics B 2010-08, Vol.19 (8), p.287-292, Article 083101
1. Verfasser: 张现周 伍素玲 蒋利娟 马欢强 贾光瑞
Format: Artikel
Sprache:eng
Schlagworte:
Atomic properties
Coherence
Dynamic tests
Dynamics
Lasers
Lithium
Multilevel
Optimization
快速通道
时间相关
激光脉冲
相干控制
脉冲设计
里德伯原子
锂原子
频率啁啾
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Zusammenfassung:Using time-dependent multilevel approach (TDML), this paper studies the dynamics of coherent control of Rydberg lithium atoms and demonstrates that Rydberg lithium atoms can be transferred to states of higher principal quantum number by exposing them to specially designed frequency-chirped laser pulses. The population transfer from n=70 to n=75 states of lithium atoms with efficiency more than 90% is achieved by means of the sequential adiabatic rapid passages. The results agree well with the experimental ones and show that the coherent control of the population transfer from the lower n to the higher n states can be accomplished by the optimization of the chirping parameters and the intensity of laser field.
ISSN:1674-1056
2058-3834
DOI:10.1088/1674-1056/19/8/083101