High Bandwidth Devices: Faster
Materials versus Nanoscaled Si and SiGe
Jerry M Woodall
Department of Electrical Engineering
Phone: 203-432-4298, E-mail: jerry.woodall@yale.edu
Keywords: InAs, Si, high bandwidth
Abstract
We explore the use of InAs as an alternative to nanoscaled Si for future generations of high bandwidth MOSFET-based circuits. InAs has a high electron mobility. Its vsat is theoretically 20 times higher than silicon’s. Our modeling shows that an HBT could achieve fT and fmax approaching 1 THz for an emitter-base and collector-base dimension of 0.5 mm x 4.0 mm
(2 mm2). A simple MOSFET model predicts and fT of about 3 THz for a gate length of 0.1 mm. The model is consistent with known experimental measurements of InAs materials parameters. InAs technology may support ultra-fast devices at 90 nm and below, or performance at 90 nm comparable to strained Si and SiGe at 45 and 22 nm features. To support the integration of InAs devices with Si circuits, we are developing a high quality InAs epilayer technology using non-lattice-matched GaP substrates.