The enhancement effect in K-shell radiative recombination of $mbox{sffamilybfseries U}^{hbox{sffamilybfseriesfontsize{10}{12}selectfont 92+}}$ ions with cooling electrons

D. Banaś; M. Pajek; Th. Stöhlker; H. F. Beyer; S. Böhm; F. Bosch; C. Brandau; M. Czarnota; S. Chatterjee; J.-Cl. Dousse; S. Fritzsche; A. Gumberidze; S. Hagmann; C. Kozhuharov; A. Kumar; D. Liesen; P. H. Mokler; A. Müller; R. Reuschl; E. W. Schmidt; D. Sierpowski; U. Spillmann; A. Surzhykov; J. Szlachetko; S. Tashenov; S. Trotsenko; P. Verma; A. Warczak

首页> 外文期刊>The European Physical Journal Special Topics >The enhancement effect in K-shell radiative recombination of $mbox{sffamilybfseries U}^{hbox{sffamilybfseriesfontsize{10}{12}selectfont 92+}}$ ions with cooling electrons

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The enhancement effect in K-shell radiative recombination of $mbox{sffamilybfseries U}^{hbox{sffamilybfseriesfontsize{10}{12}selectfont 92+}}$ ions with cooling electrons

机译：带有冷却电子的$ mbox {sffamilybfseries U} ^ {hbox {sffamilybfseriesfontsize {10} {12} selectfont 92 +}} $离子在K壳辐射复合中的增强作用

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We report the results of the x-ray radiative recombination (RR) experiment at the electron cooler of the ESR storage ring performed, for the first time, for detuned (off-cooling) electron energies. In this experiment the recombination of stored, decelerated bare uranium ions with electrons in the energy range 0–1000 meV was studied by observing K-RR x-ray photons emitted from direct radiative recombination to the lowest n=1 state. In this way the RR process was studied in a state selective manner for several off-cooling electron energies. The measured dependency of the recombination rate on the relative electron energies for K-shell RR x-ray photons are compared with the predictions of both nonrelativistic and fully relativistic calculations for the radiative recombination. A role of the relativistic effects, which contribute substantially for higher relative electron energies, are discussed. Strong enhancement of the recombination rate is observed for the the zero relative electron energy (cooling condition) for the K-shell.

机译：我们报告了在ESR存储环的电子冷却器上进行的X射线辐射复合（RR）实验的结果，这是首次对失谐（冷却）的电子能量进行了测试。在该实验中，通过观察直接辐射复合发射到最低n = 1态的K-RR X射线光子，研究了存储的，减速的裸铀离子与电子在0–1000 meV范围内的复合。这样，就以状态选择性的方式研究了几种冷却电子能量的RR过程。将所测量的复合速率对K壳RR X射线光子的相对电子能量的依赖性与辐射复合的非相对论和完全相对论计算的预测进行了比较。讨论了相对论效应的作用，它对较高的相对电子能量有很大的贡献。对于K-壳的零相对电子能量（冷却条件），观察到重组速率的强烈提高。

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《The European Physical Journal Special Topics》 |2009年第1期|15-18|共4页
作者
D. Banaś; M. Pajek; Th. Stöhlker; H. F. Beyer; S. Böhm; F. Bosch; C. Brandau; M. Czarnota; S. Chatterjee; J.-Cl. Dousse; S. Fritzsche; A. Gumberidze; S. Hagmann; C. Kozhuharov; A. Kumar; D. Liesen; P. H. Mokler; A. Müller; R. Reuschl; E. W. Schmidt; D. Sierpowski; U. Spillmann; A. Surzhykov; J. Szlachetko; S. Tashenov; S. Trotsenko; P. Verma; A. Warczak;
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Institute of Physics Jan Kochanowski University 25-406 Kielce Poland;

Institute of Physics Jan Kochanowski University 25-406 Kielce Poland;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Institut für Kernphysik Justus-Liebig Universität 35390 Giessen Germany;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Institute of Physics Jan Kochanowski University 25-406 Kielce Poland;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Department of Physics University of Fribourg 1700 Fribourg Switzerland;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Institut für Kernphysik Justus-Liebig Universität 35390 Giessen Germany;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Institut für Kernphysik Justus-Liebig Universität 35390 Giessen Germany;

Institute of Physics Jagiellonian University 30-059 Cracow Poland;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Physikalisches Institut der Universität Heidelberg 69117 Heidelberg Germany;

Institute of Physics Jan Kochanowski University 25-406 Kielce Poland;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Gesellschaft für Schwerionenforschung 64291 Darmstadt Germany;

Institute of Physics Jagiellonian University 30-059 Cracow Poland;

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The enhancement effect in K-shell radiative recombination of $mbox{sffamilybfseries U}^{hbox{sffamilybfseriesfontsize{10}{12}selectfont 92+}}$ ions with cooling electrons

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