Impact of Junction Depth and Abruptness on the Activation and the Leakage Current in Germanium n+/p Junctions

Abstract

The phosphorous activation in Ge n+/p junctions is compared in terms of junction depth, by using laser spike annealing at 860C for 400μs. The reverse junction leakage is found to strongly depend on the abruptness of dopant profiles. A shallow and abrupt junction is shown to have lower phosphorous activation level, due to surface dose loss, and higher band-to-band tunneling (BTBT) leakage, when compared to the deep junction. Simulations were carried out to evaluate the lowest achievable OFF-state currents (IOFF) for Ge double-gate FETs when using such an abrupt junction. Our results indicate that a Ge body thickness smaller than 5 nm is required to suppress the BTBT leakage and meet the requirement for the high performance devices defined by the International Technology Roadmap for Semiconductors (IOFF = 10-7 A/μm).