A code has been developed to simulate the neutralization and grazing process of slow highly charged ion Xe^q+ on Al(111) surface under the classical-over-the-barrier model. The image energy gain of Xeq+ ions are c...A code has been developed to simulate the neutralization and grazing process of slow highly charged ion Xe^q+ on Al(111) surface under the classical-over-the-barrier model. The image energy gain of Xeq+ ions are calculated and compared with experiment data. The simulation results of image energy gain are in good agreement with the experiment data. Meanwhile, in the present work, the reflection coefficient of incident Xe^q+ on Al(111) surface as a function of the incidence angle, energy and charge state is also studied.展开更多
基金Project supported by the Research Fund for the Doctoral Program of Hlgher Education (Grant No 20030730004), the National Natural Science Foundation of China (Grant No 10374039) and the Natural Science Foundation of Gansu Province, China (Grant No ZS031-A25-001-Z).
文摘A code has been developed to simulate the neutralization and grazing process of slow highly charged ion Xe^q+ on Al(111) surface under the classical-over-the-barrier model. The image energy gain of Xeq+ ions are calculated and compared with experiment data. The simulation results of image energy gain are in good agreement with the experiment data. Meanwhile, in the present work, the reflection coefficient of incident Xe^q+ on Al(111) surface as a function of the incidence angle, energy and charge state is also studied.
