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논문

Minimized Atomistic Model (MAM) and Main Evolution Path for Dominant BmIn Clusters in Boron Diffusion

https://doi.org/10.1080/08927020902865915

  • 저자J.H. Yoo; C.-O. Hwang; T. Won
  • 학술지Molecular Simulation 35-9
  • 등재유형
  • 게재일자(2009)


In this paper, we report our study on the minimised atomistic model (MAM) and the determination of an evolution path for dominant B m I n clusters during boron diffusion in kinetic Monte Carlo (KMC). It has been known that clusters generated after ion implantation play a decisive role in the enhanced boron diffusion at the tail region while being immobile at the peak region. Our MAM, based on the simple continuum model and the simple atomistic model, takes the smallest number of intermediate clusters into account as well as dominant clusters for the evolution path of interstitial clusters during boron diffusion. We find that intermediate clusters such as B2I3 and B3I3 play a significant role during the evolution of clusters despite the fact that the lifetimes of the corresponding intermediate clusters are relatively short due to low binding energies. Also, through our simulation results, we find the main evolution path of dominant clusters from B2I to B3I during thermal annealing in the MAM. Furthermore, our investigation reveals that the density of BI2 clusters increases at the beginning of the annealing process while the density of B3I increases at a later stage. KMC simulation results are compared with experimental SIMS data, which support our theoretical model.


In this paper, we report our study on the minimised atomistic model (MAM) and the determination of an evolution path for dominant B m I n clusters during boron diffusion in kinetic Monte Carlo (KMC). It has been known that clusters generated after ion implantation play a decisive role in the enhanced boron diffusion at the tail region while being immobile at the peak region. Our MAM, based on the simple continuum model and the simple atomistic model, takes the smallest number of intermediate clusters into account as well as dominant clusters for the evolution path of interstitial clusters during boron diffusion. We find that intermediate clusters such as B2I3 and B3I3 play a significant role during the evolution of clusters despite the fact that the lifetimes of the corresponding intermediate clusters are relatively short due to low binding energies. Also, through our simulation results, we find the main evolution path of dominant clusters from B2I to B3I during thermal annealing in the MAM. Furthermore, our investigation reveals that the density of BI2 clusters increases at the beginning of the annealing process while the density of B3I increases at a later stage. KMC simulation results are compared with experimental SIMS data, which support our theoretical model.

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