Relationship between effective mobility and border traps associated with charge trapping in In0.7Ga0.3As MOSFETs with various high-κ stacks

Abstract

The effective mobility and reliability characteristics of In0.7Ga0.3As quantum-well (QW) MOSFETs with various high-κ gate stacks and HEMTs with a Schottky gate under bias temperature instability (BTI) stress were investigated. The effective mobilities (μeff) of HEMTs, single-layer Al2O3, bilayer Al2O3 (0.6 nm)/HfO2 (2.0 nm), and Al2O3 (0.6 nm)/HfO2 (3.0 nm) were ∼9000, ∼6158, ∼4789, and ∼4447 cm2 V−1 s−1 at Ninv = 1.5 × 1012/cm2, respectively. The maximum effective mobility of In0.7Ga0.3As channel MOSFETs was compared with that of In0.7Ga0.3As/In0.48Al0.52As HEMTs, which are interface and border trap-free FETs. The results showed that the effective channel mobility was sensitive to traps in high-κ dielectrics related to interface trap density and border traps in the oxide. The ΔVT degradation of the bilayer Al2O3/HfO2 under BTI stress was greater than that of a single Al2O3 layer because the HfO2 layer had a high density of oxygen vacancies which were related to border traps.