Theoretical study of the effect of ion trap geometry on the dynamic behavior of ions in a Paul trap

Ziaeian I.; Sadat Kiai S.M.; Ellahi M.; Sheibani S.; Safarian A.; Farhangi S.

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Theoretical study of the effect of ion trap geometry on the dynamic behavior of ions in a Paul trap

机译：离子阱几何形状对Paul阱中离子动态行为影响的理论研究

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The influence of the ion trap geometrical shape, ring and end-cap electrodes, on the dynamical behavior of the confined ions is studied. At first by considering the geometrical parameter z0=(1)r0, where n is a real number, in the quadrupole potential, we solve Mathieu's differential equation for the first stability region using the six-order Runge-Kutta method. The numerical results show that, for a given ion trap mode i.e., rf only mode, the electrode geometry plays an important role both in higher ion mass confinement range and in a higher fractional mass resolution m/Δm.

机译：研究了离子阱的几何形状，环形电极和端帽电极对受限离子动力学行为的影响。首先，通过考虑几何参数z0 =（1 / n）r0，其中n为实数，在四极电位中，我们使用六阶Runge-Kutta方法求解第一稳定区域的Mathieu微分方程。数值结果表明，对于给定的离子阱模式，即仅rf模式，电极几何形状在较高的离子质量限制范围内和较高的质量分数分数m /Δm中均起着重要作用。

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《International journal of mass spectrometry》 |2011年第1期|共4页
作者
Ziaeian I.; Sadat Kiai S.M.; Ellahi M.; Sheibani S.; Safarian A.; Farhangi S.;
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正文语种 eng
中图分类光化学分析法（光谱分析法）;
关键词
Fractional mass resolution; Ion confinement; Ion trap geometry; Paul ion trap; Six-order Runge-Kutta method;

机译：分数质量分辨率离子限制离子阱几何保罗离子阱六阶Runge-Kutta方法;

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专利

1. Theoretical study of the effect of ion trap geometry on the dynamic behavior of ions in a Paul trap [J] . Ziaeian I., Sadat Kiai S.M., Ellahi M., International journal of mass spectrometry . 2011,第1期

机译：离子阱几何形状对Paul阱中离子动态行为影响的理论研究
2. Dynamical behavior of supersymmetric Paul trap in semiunitary formulation of supersymmetric quantum mechanics [J] . Jian-zu Zhang, Qiang Xu, H. J. W. Muller-Kirsten Physics Letters, A . 1999,第1期

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3. Quantitative Proteomic and Transcriptomic Study on Autotetraploid Paulownia and Its Diploid Parent Reveal Key Metabolic Processes Associated with Paulownia Autotetraploidization [J] . Yanpeng Dong, Minjie Deng, Zhenli Zhao, Frontiers in Plant Science . 2016,第3期

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4. Ground state cooling, quantum state engineering and study of decoherence of ions in paul traps [C] . Schmidt-Kaler, F., Roos, . 2000

机译：基态冷却，量子态工程和鲍尔阱中离子的退相干研究
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6. Molecular dynamics simulation study on trapping ions in a nanoscale Paul trap [O] . Xiongce Zhao, Predrag S. Krstic -1

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Theoretical study of the effect of ion trap geometry on the dynamic behavior of ions in a Paul trap

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