Transition Probability of Neutralization Process of +2 Ion Scatterd on a Metal Surface

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概要

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• We examine the transition probability in the neutrulizing process of +2 ion such as Be^<+2>, Ca^<+2> andBa^<+2> through the electron transfer between the ion and a metal surface, using an impurity Anderson Hamiltonian. Within second order perturbation theory with respect to the transfer integral, an analytical expression of the transition probability is derived and numerically calculated. From the numerical results, the neutralization process of +2 ion on the metal surface seems to occur more easily with decreasing the atomic number of an ion. The transition probability depends on not only the initial kinetic energy of the moving ion but also its species of ions. In addition, the plot of the transition probability as a function of the initial velocity of ions theoretically suggests the presence of an optimized initial velocity for the neutralization process. From the contour map of the transition probability plotted as functions of energy difference E_a - E_F (E_a : energy of localized electron, E_F : Fermi energy) and intra Coulomb potential U, we can see that the neutralization process of Be^<+2> easily occurs in the range of E_a - E_F being from -0.8eV to -1.2eV and U being from 0.5eV to 0.7eV, when the initial kinetic energy is lOOeV. The plot for various U shows that the transition probability almost vanishes when U = 0.0eV. This seemingly contradictory result arises from the fact that for small U the transition matrix element cancels in the second-order process as a result of the energy conservation.

• 社団法人日本物理学会の論文
• 2003-03-15

著者

• YAMADA Kosaku

  Department of Physics, Kyoto University

• KONDO Shin-ichiro

  Department of Materials Science and Engineering Faculty of Engineering, Nagasaki University

• Yamada Kosaku

  Department Of Mechanical Engineering Faculty Of Engineering Kagoshima University

• Kondo Shin-ichiro

  Department Of Electrical And Electronic Engineering Mie University

• Kondo Shin-ichiro

  Department of Advanced Materials Science, School of Frontier Sciences, University of Tokyo, Kashiwa, Chiba 277-8561, Japan

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