30 keV boron ions are implanted at doses of 2 x 10(14) and 2 x 10(15) cm-2 in <100> silicon wafers kept at room or liquid-nitrogen temperatures. The samples are analyzed by double-crystal X-ray diffraction, transmission electron microscopy and secondary ion-mass spectrometry before and after furnace annealing at 800-degrees-C. The low-dose implant does not amorphize the substrate at any of the temperatures, and residual defects together with a remarkably enhanced boron diffusion are observed after annealing. The high-dose implant amorphizes the substrate only at low temperature. In this case, unlike the room-temperature implant, the absence of any residual defect, the incorporation of the dopant in substitutional position and a negligible profile braodening of boron are obtained after annealing. In principle, this process proves itself a promising step for the fabrication of p+/n shallow junctions with good electrical characteristics.
INFLUENCE OF IMPLANT DOSE AND TARGET TEMPERATURE ON CRYSTAL QUALITY AND JUNCTION DEPTH OF BORON-DOPED SILICON LAYERS / Fabbri, R; Servidori, M; Solmi, S; Frabboni, Stefano; Ottaviani, Giampiero; Tonini, Rita; Canteri, R.. - In: APPLIED PHYSICS. A, SOLIDS AND SURFACES. - ISSN 0721-7250. - STAMPA. - 53:(1991), pp. 222-226.
INFLUENCE OF IMPLANT DOSE AND TARGET TEMPERATURE ON CRYSTAL QUALITY AND JUNCTION DEPTH OF BORON-DOPED SILICON LAYERS
FRABBONI, Stefano;OTTAVIANI, Giampiero;TONINI, Rita;
1991
Abstract
30 keV boron ions are implanted at doses of 2 x 10(14) and 2 x 10(15) cm-2 in <100> silicon wafers kept at room or liquid-nitrogen temperatures. The samples are analyzed by double-crystal X-ray diffraction, transmission electron microscopy and secondary ion-mass spectrometry before and after furnace annealing at 800-degrees-C. The low-dose implant does not amorphize the substrate at any of the temperatures, and residual defects together with a remarkably enhanced boron diffusion are observed after annealing. The high-dose implant amorphizes the substrate only at low temperature. In this case, unlike the room-temperature implant, the absence of any residual defect, the incorporation of the dopant in substitutional position and a negligible profile braodening of boron are obtained after annealing. In principle, this process proves itself a promising step for the fabrication of p+/n shallow junctions with good electrical characteristics.
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