Ultra-shallow junction formation by excimer laser annealing and low energy (<1 keV) B implantation: Atwo-dimensional analysis
Articolo
Data di Pubblicazione:
2002
Abstract:
Formation of shallow junctions has been investigated by using excimer laser annealing in combination with two
implantation schemes: BF2-ions at 20 keV and B-ions at low energies (<1 keV). The latter approach was shown to
produce best results, with ultra-shallow profiles extending to a depth as low as 35 nm. The lateral distribution of the
implanted B following laser annealing has been studied with two-dimensional measurements using selective etching and
cross-section transmission electron microscopy (TEM) on samples where the implanted dopant was confined within an
oxide mask. The results show that there is substantial lateral diffusion of B under the oxide mask when melting occurs in
this region while, if melting under the oxide mask is prevented, the implanted B close to the oxide mask edge was not
activated by laser annealing. The results have been explained by numerical heat-flow calculations and it is concluded
that the melting of the Si under the masked region and, therefore, the lateral diffusion, can be controlled by the oxide
mask thickness.
implantation schemes: BF2-ions at 20 keV and B-ions at low energies (<1 keV). The latter approach was shown to
produce best results, with ultra-shallow profiles extending to a depth as low as 35 nm. The lateral distribution of the
implanted B following laser annealing has been studied with two-dimensional measurements using selective etching and
cross-section transmission electron microscopy (TEM) on samples where the implanted dopant was confined within an
oxide mask. The results show that there is substantial lateral diffusion of B under the oxide mask when melting occurs in
this region while, if melting under the oxide mask is prevented, the implanted B close to the oxide mask edge was not
activated by laser annealing. The results have been explained by numerical heat-flow calculations and it is concluded
that the melting of the Si under the masked region and, therefore, the lateral diffusion, can be controlled by the oxide
mask thickness.
Tipologia CRIS:
01.01 Articolo in rivista
Keywords:
Shallow junction; Excimer laser annealing; Two-dimensional doping profile
Elenco autori:
Privitera, Vittorio; Mariucci, Luigi; Fortunato, Guglielmo; Mannino, Giovanni; Italia, Markus; Bongiorno, Corrado; Spinella, ROSARIO CORRADO
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