The KLn dielectronic recombination processes of trapped highly charged B-like through He-like Cu ions are studied theoretically, and the theoretical results are used to analyse our previous experimental data at Heidel...The KLn dielectronic recombination processes of trapped highly charged B-like through He-like Cu ions are studied theoretically, and the theoretical results are used to analyse our previous experimental data at Heidelberg electron beam ion trap (EBIT). The theoretical resonant positions agree with the experimental resonant positions to a precision of 0.4%, in comparison with the resonant positions of those highest peaks between theory and experiment. The experimental spectra are then fitted using a formula with the theoretical resonant energies and strengths, the result shows good overall agreement between theory and experiment over a wide electron energy range. The distribution of highly charged states is obtained from the fitting parameters.展开更多
The ab initio calculations of electron-impact resonant excitation rate coefficients from the ground level to 54 fine-structure levels of 3d94l (1 = s, p, d, f) configurations of Ni-like tantalum ion are performed by...The ab initio calculations of electron-impact resonant excitation rate coefficients from the ground level to 54 fine-structure levels of 3d94l (1 = s, p, d, f) configurations of Ni-like tantalum ion are performed by using a fully relativistic distorted-wave approximation. The configuration-interaction effects are taken into account. The decays to autoionizing levels possibly followed by autoionization cascades are also included in the calculation. The contributions from doubly-excited intermediate states of Cu-like 31^17n′l′n′l″ (n′ = 4, 5; n″ = 5 - 15) are calculated explicitly, and the contributions from high Rydberg states (n″〉 15) are taken into account by using n-3 scaling law. The present results should be more accurate than the existent calculations.展开更多
基金Supported by the National Natural Science Foundation of China under Grant Nos 10774026 and 10574029, the Programme for New Century Excellent Talents in University (NCET), and the Shanghai Leading Academic Discipline Project under Grant No B107.
文摘The KLn dielectronic recombination processes of trapped highly charged B-like through He-like Cu ions are studied theoretically, and the theoretical results are used to analyse our previous experimental data at Heidelberg electron beam ion trap (EBIT). The theoretical resonant positions agree with the experimental resonant positions to a precision of 0.4%, in comparison with the resonant positions of those highest peaks between theory and experiment. The experimental spectra are then fitted using a formula with the theoretical resonant energies and strengths, the result shows good overall agreement between theory and experiment over a wide electron energy range. The distribution of highly charged states is obtained from the fitting parameters.
基金Supported by the National Natural Science Foundation of China under Grant Nos 10574029 and No 10434050, the Chinese Association of Atomic and Molecular Data and National High-Tech ICF Committee in China.
文摘The ab initio calculations of electron-impact resonant excitation rate coefficients from the ground level to 54 fine-structure levels of 3d94l (1 = s, p, d, f) configurations of Ni-like tantalum ion are performed by using a fully relativistic distorted-wave approximation. The configuration-interaction effects are taken into account. The decays to autoionizing levels possibly followed by autoionization cascades are also included in the calculation. The contributions from doubly-excited intermediate states of Cu-like 31^17n′l′n′l″ (n′ = 4, 5; n″ = 5 - 15) are calculated explicitly, and the contributions from high Rydberg states (n″〉 15) are taken into account by using n-3 scaling law. The present results should be more accurate than the existent calculations.
