Introduction

The superior electron transport properties of III — V materials enable an attractive route to V_dd scaling at sub 10 nm nodes. Extremely thin (ET) architectures (finFET or planar ETB) are a choice of technology at these geometries to maintain electrostatic integrity and control short channel effects (SCE) [1]–[3]. However, thinning down a channel degrades carrier transport properties. For the first time, we report ETB-QW InAs MOSFETs that exhibits excellent SCE control and favorably benchmarks an injection velocity (Vinj) against other III-V and Si devices. This comparison demonstrates that channel thickness can be scaled to at least 5 nm and the V_inj advantage over Si maintained, demonstrating a potential scaling pathway to sub 10-nm technology node.