Lithography-independent nanometer silicon MOSFET's on insulator

Future field-effect transistors should have control regions-also called channels or barriers-of a few tens ofnanometers to achieve a transconductance of 1 Siemens per mm and beyond, f(T) of 100 GHz and safe operating voltages beyond 1 V. This paper presents two approaches for the fabrication of such MOS transistors in silicon on insulator (SOI) on today's average technology lines without resorting to nanometer lithography, but rather using differential doping available in reduced-temperature epitaxy and implantation. With 6 nm oxinitride gate dielectrics, inner transconductances of 700 mS/mm at room temperature are reported.