Huihui Ji, Min Yu, Hao Shi, Xiaokang Shi, Ru Huang, Xing Zhang, K. Suzuki, H. Oka
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Simulation of implantation into HfO/sub 2/ by MD method
Molecular dynamics (MD) method has not been reported to predict range profiles of implantation into HfO/sub 2/ and stopping power models especially electronic stopping power model has not been studied specifically. In this article, MD method is successfully applied to simulate B, As and P implantation into HfO/sub 2/. An efficient electronic stopping model with only one free parameter, i.e., the single electron radius, is carefully discussed. A reliable fitting value of the single electron radius is firstly given for B, As and P implantation into HfO/sub 2/. Using the obtained fitting value, simulation results agree with SIMS data excellently over the energy range of 5 - 40 keV.
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