Deactivation of submelt laser annealed arsenic ultrashallow junctions in silicon during subsequent thermal treatment

The use of nonequilibrium annealing approaches can produce very high levels of arsenic electrical activation in Si. However, subsequent thermal treatments between 500 and 800 ° C easily deactivate the dopant to a level one order of magnitude below the solid solubility. In this work, the authors stud...

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Veröffentlicht in:	Journal of vacuum science & technology. B, Microelectronics and nanometer structures processing, measurement and phenomena Microelectronics and nanometer structures processing, measurement and phenomena, 2010-01, Vol.28 (1), p.C1B1-C1B5
Hauptverfasser:	Giubertoni, Damiano, Pepponi, Giancarlo, Sahiner, Mehmet Alper, Kelty, Stephen P., Gennaro, Salvatore, Bersani, Massimo, Kah, Max, Kirkby, Karen J., Doherty, Roisin, Foad, Majeed A., Meirer, F., Streli, C., Woicik, Joseph C., Pianetta, Piero
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container_title	Journal of vacuum science & technology. B, Microelectronics and nanometer structures processing, measurement and phenomena
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creator	Giubertoni, Damiano Pepponi, Giancarlo Sahiner, Mehmet Alper Kelty, Stephen P. Gennaro, Salvatore Bersani, Massimo Kah, Max Kirkby, Karen J. Doherty, Roisin Foad, Majeed A. Meirer, F. Streli, C. Woicik, Joseph C. Pianetta, Piero
description	The use of nonequilibrium annealing approaches can produce very high levels of arsenic electrical activation in Si. However, subsequent thermal treatments between 500 and 800 ° C easily deactivate the dopant to a level one order of magnitude below the solid solubility. In this work, the authors study the deactivation of laser annealed (LA) ultrashallow arsenic distributions in silicon using Hall effect measurements, extended x-ray absorption fine structure spectroscopy, and secondary ion mass spectrometry. Single crystal Si (100) wafers implanted with As ions at 2 keV energy and different doses were activated with a millisecond LA at 1300 ° C using a scanning diode laser annealing system under nonmelt conditions. The samples were then thermally treated in a furnace at 300 – 900 ° C in a N 2 atmosphere for 10 min . Electrical deactivation has been observed for all the implanted doses but for the lowest one. In particular, it was observed that the higher the As dose the easier the deactivation, in particular, after the 700 ° C post-LA treatment. At 900 ° C , in-depth diffusion and a resulting reactivation has been observed for samples implanted with 1 × 10 15 and 3 × 10 15 cm − 2 .
doi_str_mv	10.1116/1.3242637
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title	Deactivation of submelt laser annealed arsenic ultrashallow junctions in silicon during subsequent thermal treatment
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