Your search keyword '"Xiong, Feifei"' showing total 3 results

1. Dynamical resonant charge transfer of fast C−, O−, F− ions and water covered Si(111) surface.

Author

Xiong, Feifei, Gao, Lei, Liu, Yuefeng, Lu, Jianjie, Liu, Pinyang, Qiu, Shunli, Qiu, Xiyu, Guo, Yanling, Chen, Ximeng, and Chen, Lin

Subjects

*CHARGE transfer, *SCATTERING (Physics), *INELASTIC collisions, *ANIONS, *BAND gaps

Abstract

The experiment of 6.5–22.5 keV C − , O − and F − ions scattering on water covered Si(111) surface has been performed. It is found that the positive-ion fraction is very low and increases monotonically as a function of perpendicular exit velocity and exit angle. In particular, the negative-ion fraction increases monotonically with perpendicular exit velocity for specular scattering, and for a given incident energy the angle dependence of the fraction is nonmonotonic. We interpret the observed positive ions in terms of inelastic binary collision, and adopt a modified resonant charge transfer model to calculate the bell-shaped negative-ion fraction. We find that the neutral yield at short ion-surface distance is nonzero and obeys well an exponential dependence. It strongly indicates that a dynamical equilibrium for negative ion formation is never achieved at short distances, and the band gap effect on charge transfer can be neglected to a large extent in this relatively high energy region. [ABSTRACT FROM AUTHOR]

Published

2017

2. Negative ion production in energetic O− and C− ions scattering on HOPG.

Author

Chen, Lin, Liu, Pinyang, Xiao, Yunqing, Gao, Lei, Liu, Yuefeng, Qiu, Shunli, Xiong, Feifei, Lu, Jianjie, Guo, Yanling, and Chen, Ximeng

Subjects

*PYROLYTIC graphite, *ION emission, *SCATTERING (Physics), *OXYGEN spectra, *CARBON spectra

Abstract

In this work, we present negative-ion fractions as a function of exit velocity and angle after keV-energy negative oxygen and carbon ions scattering on a highly oriented pyrolytic graphite (HOPG) surface, at a scattering angle of 38°. The negative-ion fractions increase monotonously with the increase of exit velocity for specular scattering, while negative-ion fractions present a bell-shaped dependence on exit angle. In order to gain further insight into the nature of charge transfer on HOPG, a modified charge transfer model involving the contribution of positive ions has been proposed and roughly reproduced the velocity and angle dependences of negative-ion fractions. [ABSTRACT FROM AUTHOR]

Published

2017

3. The description of charge transfer in fast negative ions scattering on water covered Si(100) surfaces.

Author

Chen, Lin, Qiu, Shunli, Liu, Pinyang, Xiong, Feifei, Lu, Jianjie, Liu, Yuefeng, Li, Guopeng, Liu, Yiran, Ren, Fei, Xiao, Yunqing, Gao, Lei, Zhao, Qiushuang, Ding, Bin, Li, Yuan, Guo, Yanling, and Chen, Ximeng

Subjects

*SILICON isotopes, *CHARGE transfer, *ION scattering, *METALLIC surfaces, *DOPING agents (Chemistry), *COLLISIONS (Physics)

Abstract

Doping has significantly affected the characteristics and performance of semiconductor electronic devices. In this work, we study the charge transfer processes for 8.5–22.5 keV C − and F − ions scattering on H 2 O-terminated p-type Si(100) surfaces with two different doping concentrations. We find that doping has no influence on negative-ion formation for fast collisions in this relatively high energy range. Moreover, we build a model to calculate negative ion fractions including the contribution from positive ions. The calculations support the nonadiabatic feature of charge transfer. [ABSTRACT FROM AUTHOR]

Published

2016