Ultra shallow junctions formed by sub-melt laser annealing

Ultra shallow junctions formed by sub-melt laser annealing

Since the requirements for the S/D extensions for future devices become more and more severe with respect to activation and vertical abruptness, a huge effort has been done to develop ultra-fast annealing techniques such as laser annealing. Due to the fact that only the surface layers are heated, th...

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Bibliographische Detailangaben
Hauptverfasser: Falepin, A., Janssens, T., Severi, S., Vandervorst, W., Felch, S.B., Parihar, V., Mayur, A.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Annealing
Cooling
Electrical resistance measurement
Heat sinks
Implants
Lattices
Optical materials
Probes
Silicon
Temperature
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Beschreibung
Zusammenfassung:Since the requirements for the S/D extensions for future devices become more and more severe with respect to activation and vertical abruptness, a huge effort has been done to develop ultra-fast annealing techniques such as laser annealing. Due to the fact that only the surface layers are heated, the Si wafer serves as a heat sink. Hence, extremely fast cooling rates can be obtained resulting in a high activation and limited diffusion of the dopants. We present a preliminary study on the activation of n- and p-type junction implants by sub-melt laser annealing. The influence of the pre-amorphization depth, the laser annealing temperature and other process parameters on the activation has been investigated. Sheet resistance and junction depth measurements reveal good activation with minimal diffusion
ISSN:1944-0251
1944-026X
DOI:10.1109/RTP.2005.1613687