Acta Optica Sinica, Volume. 38, Issue 2, 0202001(2018)
Numerical Simulation on Effect of Key Parameters on Light-Induced Drift Velocity of Lithium Atoms
Figures & Tables(8)
Fig. 2. Light-induced drift velocity as a function of wavelength of exciting light
Fig. 3. Light-induced drift velocity as a function of power density of exciting light
Table 1. Diffusion coefficient of lithium atom in ground and excited states in different buffer gases under the conditions of T=600 K and p=1.01×105 Pa
View tableTable 1. Diffusion coefficient of lithium atom in ground and excited states in different buffer gases under the conditions of T=600 K and p=1.01×105 Pa
Gas /(cm2·s-1) /(cm2·s-1) ( D g-D e)/D gLi-Ar 1.00 0.7620 0.238 Li-Kr 0.90 0.6255 0.305 Li-Xe 0.77 0.5236 0.320
Table 2. Collision cross section of excited fine structure of lithium in different buffer gases
View tableTable 2. Collision cross section of excited fine structure of lithium in different buffer gases
Gas /(10-18 m2) /(10-19 m2) Li-Ar 1.026 5.31 Li-Kr 1.157 6.02 Li-Xe 1.193 6.60
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Jiaqi Yang, Zhizhong Zhang, Ming Xiong. Numerical Simulation on Effect of Key Parameters on Light-Induced Drift Velocity of Lithium Atoms[J]. Acta Optica Sinica, 2018, 38(2): 0202001
Paper Information
Category: Atomic and Molecular Physics
Received: Jul. 27, 2017
Accepted: --
Published Online: Aug. 30, 2018
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