随机过程在四极离子阱中的应用

IF 0.4 Q4 SPECTROSCOPY Mass Spectrometry Letters Pub Date : 2015-12-31 DOI:10.5478/MSL.2015.6.4.91

S. S. Chaharborj, S. Kiai, Norihan Md Arifina, Y. Gheisari

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引用次数: 1

摘要

布朗运动或维纳过程作为随机过程的物理模型，被看作是随机变量的索引集合。随机过程对四极离子阱(QIT)的约束势波动有很大的影响。用高分数质分辨谱法研究了这种效应。像维纳过程或布朗过程这样的随机过程有可能用于四极离子阱(QIT)。研究的问题是噪声系数的稳定性图，以及噪声系数的实时离子轨迹。模拟结果对捕获离子具有较高的分辨精度。此外，在较低的质量范围内，包含随机电位的脉冲电压可以被认为非常适合具有较高质量分辨率的四极离子阱。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Applications of Stochastic Process in the Quadrupole Ion traps

The Brownian motion or Wiener process, as the physical model of the stochastic procedure, is observed as an indexed collection random variables. Stochastic procedure are quite influential on the confinement potential fluctuation in the quadrupole ion trap (QIT). Such effect is investigated for a high fractional mass resolution spectrometry. A stochastic procedure like the Wiener or Brownian processes are potentially used in quadrupole ion traps (QIT). Issue examined are the sta- bility diagrams for noise coefficient, as well as ion trajectories in real time for noise coefficient, . The simulated results have been obtained with a high precision for the resolution of trapped ions. Furthermore, in the lower mass range, the impulse voltage including the stochastic potential can be considered quite suitable for the quadrupole ion trap with a higher mass resolution.

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来源期刊

Mass Spectrometry Letters SPECTROSCOPY-

CiteScore

0.90

自引率

20.00%

发文量

审稿时长

6 weeks