Electron-impact ionization and ionic fragmentation of O2 from threshold to 120 eV energy range

R. Lomsadze, M. Gochitashvili, R. Kezerashvili, M. Schulz
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Abstract

We study the electron-impact induced ionization of O$_{2}$ from threshold to 120 eV using the electron spectroscopy method. Our approach is simple in concept and embodies the ion source with a collision chamber and a mass spectrometer with a quadruple filter as a selector for the product ions. The combination of these two devices makes it possible to unequivocally collect all energetic fragment ions formed in ionization and dissociative processes and to detect them with known efficiency. The ion source allows to vary and tune the electron-impact ionization energy and the target-gas pressure. We demonstrate that for obtaining reliable results of cross sections for inelastic processes and determining mechanisms for the formation of O$^{+}$($^{4}S,^2{D},^2{P}$) ions, it is crucial to control the electron-impact energy for production of ion and the pressure in the ion source. A comparison of our results with other experimental and theoretical data shows good agreement and proves the validity of our approach.
从阈值到120ev能量范围O2的电子冲击电离和离子碎裂
我们用电子能谱法研究了O$_{2}$从阈值到120 eV的电子碰撞诱导电离。我们的方法在概念上是简单的,包括离子源与碰撞室和质谱仪与四重过滤器作为产物离子的选择器。这两种装置的结合使得明确地收集在电离和解离过程中形成的所有高能碎片离子并以已知的效率检测它们成为可能。离子源允许改变和调整电子冲击电离能和目标气体压力。我们证明了为了获得可靠的非弹性过程截面结果和确定O$^{+}$($^{4}S,^2{D},^2{P}$)离子形成机制,控制离子产生的电子冲击能和离子源压力是至关重要的。将所得结果与其它实验和理论数据进行了比较,结果一致,证明了方法的有效性。
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