Molecular dynamics study of implant and damage formation in low-energy boron cluster ion implantation
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Date
1999
Authors
Aoki, T.
Matsuo, J.
Insepov, Z.
Yamada, I.
Journal Title
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Publisher
Ion Implantation Technology Proceedings, 1998 …, 1999
Abstract
Cluster ion implantation using decaborane (B,J-I,,) has been proposed as a useful technique for shallow junction formation. In order to examine the characteristics and advantages of cluster ion implantation, molecular dynamics simulations of small B cluster and monomer implantation were performed B,, B4 and B,, are irradiated on Si (001) substrates with acceleration energy of 230eV/atom so that B, and 6, are accelerated with 0.Y2keV and 2.3keV, respectively. Those three show the same implant profile and implant efficiency, which agrees with the experimental result of &,,HI, implantation. This result suggests that each B atom in a B cluster acts individually in similar way to a monomer ion. B clusters show the same properties in projection range and implant efficiency as the monomer whereas non-linearity is shown in damage formation. The number of displacements by one B atom once increases to the same maximum value for both a B cluster and a B monomer. However, the damage recovery process is different depending on the cluster sue. Damage induced by B,, recovers more slowly and 4 times as many displacements remain compared to B, 8ps after impact. These displacements by B,, clusters concentrate in the near surface region of the impact point, while the ones by B, reside around the implanted B atom as the end-of-range damage. This characteristic damage formation by B,, cluster is expected to avoid transientenhanced-diffusion of incident B atoms and achieve the formation of high-quality shallow p-type junction.
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Citation
T Aoki, J Matsuo, Z Insepov, I Yamada. Molecular dynamics study of implant and damage formation in low-energy boron cluster ion implantation. Ion Implantation Technology Proceedings, 1998 …, 1999