Rutherford Backscattering (RES) of lithium ions is investigated to study the near-surface region of different targets. Lithium beams, 8 MeV in energy, are produced by the tandem accelerator of the Laboratorio Nazionale del Sud of Catania (Italy). RES is applied to monocrystalline silicon substrates to perform, in axial and planar ion channelling, ion implantation ''in situ'' of heavy ion species at high energy (similar to 0.5 MeV/amu). Arsenic ions, 40 MeV in energy and doses ranging between I and 8 x 10(15) at/cm(2), are implanted in silicon substrates to modify the electrical resistivity of deep layers. This paper presents the limitations of the technique, the mass sensitivity, the cross sections involved and the minimum detection amounts compared to the traditional RES of helium beams.
RBS and ion channelling surface analysis by 8.0 MeV lithium beams
Privitera V;
1996
Abstract
Rutherford Backscattering (RES) of lithium ions is investigated to study the near-surface region of different targets. Lithium beams, 8 MeV in energy, are produced by the tandem accelerator of the Laboratorio Nazionale del Sud of Catania (Italy). RES is applied to monocrystalline silicon substrates to perform, in axial and planar ion channelling, ion implantation ''in situ'' of heavy ion species at high energy (similar to 0.5 MeV/amu). Arsenic ions, 40 MeV in energy and doses ranging between I and 8 x 10(15) at/cm(2), are implanted in silicon substrates to modify the electrical resistivity of deep layers. This paper presents the limitations of the technique, the mass sensitivity, the cross sections involved and the minimum detection amounts compared to the traditional RES of helium beams.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
