在5.5 ~ 30.9 MeV/u能量范围内，Xe54+与H2分子碰撞时的电子捕获

arXiv: Atomic Physics Pub Date : 2020-05-05 DOI:10.1103/physreva.102.042825

F. Kröger, G. Weber, M. O. Herdrich, J. Glorius, C. Langer, Z. Slavkovská, L. Bott, C. Brandau, B. Brückner, K. Blaum, X. Chen, S. Dababneh, T. Davinson, P. Erbacher, S. Fiebiger, T. Gassner, K. Göbel, M. Groothuis, A. Gumberidze, G. Gyürky, S. Hagmann, C. Hahn, M. Heil, R. Hess, R. Hensch, P. Hillmann, P. Hillenbrand, O. Hinrichs, B. Jurado, T. Kausch, A. Khodaparast, T. Kisselbach, N. Klapper, C. Kozhuharov, D. Kurtulgil, G. Lane, C. Lederer-Woods, M. Lestinsky, S. Litvinov, Y. Litvinov, B. Löher, F. Nolden, N. Petridis, U. Popp, M. Reed, R. Reifarth, M. S. Sanjari, H. Simon, U. Spillmann, M. Steck, J. Stumm, T. Szücs, T. T. Nguyen, A. Taremi Zadeh, B. Thomas, S. Torilov, H. Törnqvist, C. Trageser, S. Trotsenko, M. Volknandt, M. Weigand, C. Wolf, P. Woods, V. P. Shevelko, I. Tolstikhina, T. Stöhlker

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引用次数: 4

摘要

研究了Xe$^{54+}$与H$_2$分子在ESR存储环内部气体靶上的电子捕获过程。从观察到的莱曼辐射的发射截面推导出电子捕获到激发态的截面值，莱曼辐射是由类氢离子在捕获目标电子后发射的。采用ESR的减速方式，离子束能量范围在5.5 ~ 30.9 MeV/u之间变化。因此，电子捕获数据被记录在中间，特别是低碰撞能量状态，远低于产生裸氙离子所需的束流能量。所获得的数据被发现在合理的定性与理论方法一致，而通常应用的经验公式显着高估了实验结果。

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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Electron capture of Xe54+ in collisions with H2 molecules in the energy range between 5.5 and 30.9 MeV/u

The electron capture process was studied for Xe$^{54+}$ colliding with H$_2$ molecules at the internal gas target of the ESR storage ring at GSI, Darmstadt. Cross section values for electron capture into excited projectile states were deduced from the observed emission cross section of Lyman radiation, being emitted by the hydrogen-like ions subsequent to the capture of a target electron. The ion beam energy range was varied between 5.5 MeV/u and 30.9 MeV/u by applying the deceleration mode of the ESR. Thus, electron capture data was recorded at the intermediate and in particular the low collision energy regime, well below the beam energy necessary to produce bare xenon ions. The obtained data is found to be in reasonable qualitative agreement with theoretical approaches, while a commonly applied empirical formula significantly overestimates the experimental findings.

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arXiv: Atomic Physics

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