We studied the strain induced in a silicon lattice by the presence of boron clusters formed by the interaction of high concentration (2 x 10(20) at cm(-3)) substitutional B with Si interstitials produced by ion implantation. We found that the clustered immobile B induces a significant amount of strain in the host lattice. By analysing the dissolution behaviour of boron clusters after prolonged annealing, we found that the strain linearly decreases as the amount of clustered B decreases, evidencing a constant lattice expansion Delta V per clustered B atom of (3.7 +/- 0.6) angstrom(3), independently of the annealing temperature and time. By performing model potential calculations of Delta V on selected boron clusters, we concluded that these clusters can be structurally more complex than those commonly assumed or hypothesized so far.
Lattice strain induced by boron clusters in crystalline silicon
Napolitani E;Bruno E;Mirabella S;Priolo F;Mattoni A
2006
Abstract
We studied the strain induced in a silicon lattice by the presence of boron clusters formed by the interaction of high concentration (2 x 10(20) at cm(-3)) substitutional B with Si interstitials produced by ion implantation. We found that the clustered immobile B induces a significant amount of strain in the host lattice. By analysing the dissolution behaviour of boron clusters after prolonged annealing, we found that the strain linearly decreases as the amount of clustered B decreases, evidencing a constant lattice expansion Delta V per clustered B atom of (3.7 +/- 0.6) angstrom(3), independently of the annealing temperature and time. By performing model potential calculations of Delta V on selected boron clusters, we concluded that these clusters can be structurally more complex than those commonly assumed or hypothesized so far.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
