缓冲气体冷却是将离子阱中的离子云冷却的最有效和实用的方法,缓冲气体的种类和数量是汞离子微波频标实验的关键技术.通过在马修方程中引入阻力项的方法,研究了线型离子阱中氦气、氖气、氩气对囚禁的汞离子的冷却效果,结果表明在氩气中汞离子运动的衰减时间最短.研究了为使钟跃迁(40.5 GHz)的频率移动最小,所需氦气的压强为10-5 Torr,氖气的压强为2.4×10-5 Torr.考虑到缓冲气体对汞离子的冷却效率和对气体压强的敏感性,氖气要比氦气、氩气更适合作缓冲气体.
Buffer gas cooling is the most effective and practical method to cool ions in ion trap.The kind and quantity of buffer gas are the key technologies in mercury ion microwave frequency standard experiments.Buffer gas made of helium,neon or argon was studied to cool trapped mercury ions (199Hg+)in a linear ion trap by introducing a resistance term in Mathieu's equation.It's found that the decay time of motion of 199Hg+ in argon gas is the shortest,and the frequency shift of the clock transition (40.5 GHz)is minimum when the pressure of helium is 10-5 Torr or the pressure of neon gas is 2.4 x 10-5 Torr.Neon is the most suitable buffer gas among helium,neon and argon,considering the decay time-constant of motion of 199Hg+ in buffer gases and 199Hg+ clock transition shift's sensitivity to the change of the pressure of buffer gas.
参考文献
| [1] | Blatt R,Schnatz H,Werth G.Precise determination of the 171Yb+ ground state hyperfine separation[J].Z.Phys.A,1983,312:143-147. |
| [2] | Dick R H.The effect of collisions upon the Doppler width of spectral lines[J].Phys.Rev.,1953,89:472. |
| [3] | Major F G,Werth G.High-resolution magnetic hyperfine resonance in harmonically bound ground-state 199Hg ions[J].Phys.Rev.Lett.,1973,30:1155-1158. |
| [4] | Jardino M,Desainfuscien M,Barillet R,et al.Frequency stability of a mercury ion frequency standard[J].Appl.Phys.,1981,24:107-112. |
| [5] | Culter L S,Giffard R P,Wheeler P J,et al.Initial operational experience with a mercury ion storage frequency standard[C].Proc.of the 41st Annual Frequency Control Symposium,1987,12-19. |
| [6] | Prestage J D,Dick G J,Maleki L.The JPL trapped ion frequency standard development[C].Proc.of the 41st Annual Frequency Control Symposium,1987,21. |
| [7] | Tjoelker R L,Prestage J D,Koppang P A,et al.Stability measurements of a JPL multi-pole mercury trapped ion frequency standard at the USNO[C].Joint Meeting EFTF and IEEE IFCS,2003,1066-1071. |
| [8] | Prestage J D,Chung S,Le T,et al.Liter sized ion clock with 10-15 stability[C].Proc.of the 36th Annual Precise Time and Time Interval (PTTI) Systems and Applications Meeting,2005,472-476. |
| [9] | She L,Wang W M,Bai L,et al.Fluorescence detection and buffer gas cooling of trapped mercury ions in paul trap[J].Chin.Phys.Lett.,2008,25:1653-1656. |
| [10] | Shao Huili,Zhu Yanwu,Li Jiaomei,et al.Diffusion experiment with high-purity helium gas for cooling ions in linear ion trap[J].Chinese Journal of Atomic and Molecular Physics(原子与分子物理学报),2004,21:199(in Chinese). |
| [11] | Tjoelker R L,Prestage J D,Dick G J,et al.Long term stability of Hg trapped ion frequency standards[C].Proc.of the 47th Annual Symposium on Frequency Control,1993,132-138. |
| [12] | Huang Xiong,Yang Yuna,Liu Hao,et al.Zeeman spectrum and magnetic effect of trapped 199Hg+ ions[J].Chinese Journal of Quantum Electronics(量子电子学报),2011,28(1):19-24 (in Chinese). |
| [13] | Zhang Zhifei,Gao Kelin,Luo Xueli,et al.The buffer gas cooling in paul trap[J].Chinese Journal of Atomic and Molecular Physics(原子与分子物理学报),1998,15:323 (in Chinese). |
| [14] | Driver R D.Ordinary and Delay Differential Equations[M].New York:Long-Mans,1977; Mc Lachlan N W.Theory and Application of Mathieu Functions[M].Oxford:Clarendon Press,1947. |
| [15] | Driver R D.Ordinary and Delay Differential Equations[M].New York:Long-Mans,1977; Mc Lachlan N W.Theory and Application of Mathieu Functions[M].Oxford:Clarendon Press,1947. |
| [16] | Wang M C,Uhlenbeck G E.On the theory of the Brownian motion Ⅱ[J].Rev.Mod.Phys.,1945,17:323-342. |
| [17] | Risken H.The Fokker Planck Equation:Methods of Solution and Applications[M].Berlin,Heidelberg,New York,Tokyo:Springer-Verlag,1996:18. |
| [18] | Kampen N G van.Stochastic Processes in Physics and Chemistry[M].Amsterdam:North-tlotland,2001. |
| [19] | Blatt R,Zoller P,Holzmiiller G,et al.Brownian motion of a parametric oscillator:A model for ion confinement in radio frequency traps[J].Z.Phys.D-Atoms,Molecules and Clusters,1986,4:121-126. |
| [20] | Kellerbauer A,Kim T,Moore R B,et al.Buffer gas cooling of ion beams[J].Nuclear Instruments and Methods in Physics Research A,2001,469:276-285. |
| [21] | Mason E A,McDaniel E W.Transport Properties of Ions in Gases[M].New York:JohnWiley & Sons,1988. |
| [22] | Prestage J D,Tjoelker R L,Dick G J,et al.Doppler sideband spectra of Hg ions in a linear trap[C].IEEE International Frequency Control symposium,1993. |
| [23] | Ellis H W,Thackston M G,McDaniel E W.Transport properties of gaseous ions ver a wide energy range[J].Atomic Data and Nuclear Data Table,1976,17:177. |
| [24] | Chung S K,Prestage J D.Gas frequency shifts in microwave mercury ion clocks[R].IPN Progress Report,2004. |
- 下载量()
- 访问量()
- 您的评分:
-
10%
-
20%
-
30%
-
40%
-
50%