Using a three-step laser saturation excitation technique, the saturation effects on the Ba 6pns (J = 1) and 6pad (J = 1, 3) autoionization spectra are observed systemically in zero field. These saturation spectra ...Using a three-step laser saturation excitation technique, the saturation effects on the Ba 6pns (J = 1) and 6pad (J = 1, 3) autoionization spectra are observed systemically in zero field. These saturation spectra are introduced to determine the high n members of 6pnl (l = 0, 2) autoionizing series and are used to analyse the channel interactions among the autoionizing series in zero field. Furthermore, the saturation excitation technique is applied to the electric field case, in which the saturation spectra of Ba 6pnk (|M|= 0, 1) autoionizing Stark states are measured. Most of these saturation spectra are observed for the first time so far as we know, which indicate the mixing of the autoionizing states in the electric fields.展开更多
The experiments of two-alpha emission from 17,18^Ne excited levels were performed at the HIRFL-RIBLL facility of the Institute of Modern Physics, Lanzhou. The beams of 17^Ne at the energy of 49.9 MeV/u and lSNe at 51....The experiments of two-alpha emission from 17,18^Ne excited levels were performed at the HIRFL-RIBLL facility of the Institute of Modern Physics, Lanzhou. The beams of 17^Ne at the energy of 49.9 MeV/u and lSNe at 51.8 MeV/u bombarded a 197Au target to populate excited states of 17,18^Ne via Coulomb excitation. Complete kinematics measurements were achieved by the detectors of a silicon strip and CsI+PIN array. The experimental results combined with simple MC simulations show the characteristic of sequential two-alpha emission via 140 excited states for lSNe. The results of two-alpha emission from 17^Ne are preliminary and need further analyses.展开更多
In the present work, we used the technique of “low energy ion implantation + swift; heavy ion irradiation ”to investigate huge electronic excitations induced modification in N-doped graphite-like-carbon.
基金National Natural Science Foundation of China(10535010,10735010 ,10775068)Major State Basic Research and Development Programof China(973 Program)(2007CB815004)+1 种基金Knowledge Innvation Project of Chinese Academy of Sciences(KJCX2-SW-No2)Doctoral Fund of Ministry of Education of China(RFDP 20070284016)~~
基金Project supported by the National Natural Science Foundation of China (Grant No 10574098), the Natural Science Foundation , (Grant No 05YFJMJC05200) of Tianjin, and the Scientific Research Fund of Zhejlang Provincial Education Department.
文摘Using a three-step laser saturation excitation technique, the saturation effects on the Ba 6pns (J = 1) and 6pad (J = 1, 3) autoionization spectra are observed systemically in zero field. These saturation spectra are introduced to determine the high n members of 6pnl (l = 0, 2) autoionizing series and are used to analyse the channel interactions among the autoionizing series in zero field. Furthermore, the saturation excitation technique is applied to the electric field case, in which the saturation spectra of Ba 6pnk (|M|= 0, 1) autoionizing Stark states are measured. Most of these saturation spectra are observed for the first time so far as we know, which indicate the mixing of the autoionizing states in the electric fields.
基金supported by National Natural Science Foundation of China (Nos.10675169,10735100,10727505,11005156)Major State Basic Research Developing Program of China (No.2007CB815003)
文摘The experiments of two-alpha emission from 17,18^Ne excited levels were performed at the HIRFL-RIBLL facility of the Institute of Modern Physics, Lanzhou. The beams of 17^Ne at the energy of 49.9 MeV/u and lSNe at 51.8 MeV/u bombarded a 197Au target to populate excited states of 17,18^Ne via Coulomb excitation. Complete kinematics measurements were achieved by the detectors of a silicon strip and CsI+PIN array. The experimental results combined with simple MC simulations show the characteristic of sequential two-alpha emission via 140 excited states for lSNe. The results of two-alpha emission from 17^Ne are preliminary and need further analyses.
文摘In the present work, we used the technique of “low energy ion implantation + swift; heavy ion irradiation ”to investigate huge electronic excitations induced modification in N-doped graphite-like-carbon.