Channel Engineering using RP-CVD Epitaxy for High Performance CMOS Transistors

Channel Engineering using RP-CVD Epitaxy for High Performance CMOS Transistors

Channel engineering is of central importance for optimizing the electrical behaviour of deep sub-μm transistors. CVD-epitaxy at relatively low temperatures provides very sharp doping profiles in both n- and p-channel devices, with doping concentrations in the range of 10 16 to 5-10 18 cm -3 . Boron...

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Bibliographische Detailangaben
Hauptverfasser: Risch, L., Schafer, H., Lustig, B., Hofmann, F., Scheler, U., Franosch, M., Roesner, W., Aeugle, T., Fischer, H.
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Annealing
Boron
Capacitance
CMOS technology
Doping profiles
Epitaxial growth
Research and development
Scattering
Temperature distribution
Threshold voltage
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Zusammenfassung:Channel engineering is of central importance for optimizing the electrical behaviour of deep sub-μm transistors. CVD-epitaxy at relatively low temperatures provides very sharp doping profiles in both n- and p-channel devices, with doping concentrations in the range of 10 16 to 5-10 18 cm -3 . Boron and arsenic are used as dopants. The thermal process budget has been minimized using 5nm gate oxides grown at 700°C or 800°C, and RTP annealing. N-surface- and p-buried-channel transistors with 300nm effective channel length have been fabricated, with saturation currents up to 500μA and 180μA, respectively, at a power supply voltage of 2.5V.