V. Marocchi scite author profile

We report near-field photocurrent (PC) measurements performed on boron-implanted silicon and acquired at l ¼ 633; 1330; 1550 nm corresponding to photon energies of 1.96, 0.93, and 0.80 eV, respectively. The second and the third energies are below the silicon energy gap (E gap ¼ 1:12 eV), representing incident radiation to which Si is virtually transparent. The PC images acquired at l ¼ 1330 and 1550 nm reveal the presence of boron clusters which are a consequence of B-implantation and rapid thermal annealing at 1100 C. Boron clusters behave as metal clusters embedded into the silicon matrix and introduce gap states which give rise to the observed photocurrent. At energies larger than the Si energy gap the near-field PC images give information about subsurface defects not related to boron and with no correspondence in the surface topography.

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Near-Field Photoluminescence Spectra of Laser Active Point Defects in LiF Films

Cricenti¹,

Generosi²,

Luce³

et al. 2001

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V. Marocchi

Optical nanospectroscopy study of ion-implanted silicon and biological growth medium

L2L3VCoster-Kronig decay in nickel: The near-edge region

SNOM & Spectroscopy: a Technique Beyond the Diffraction Limit

Near-Field Imaging of the Photocurrent Induced by Light on Boron-Implanted Silicon

Near-Field Photoluminescence Spectra of Laser Active Point Defects in LiF Films

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