Title :
A model for hydrogen-induced piezoelectric effect in InP HEMTs and GaAs PHEMTs
Author :
Mertens, Samuel D. ; Del Alamo, Jesus A.
Author_Institution :
MIT, Cambridge, MA, USA
fDate :
11/1/2002 12:00:00 AM
Abstract :
We have developed a model for the impact of the hydrogen-induced piezoelectric effect on the threshold voltage of InP HEMTs and GaAs PHEMTs. We have used two-dimensional (2-D) finite element simulations to calculate the mechanical stress caused by a Ti-containing metal gate that has expanded due to hydrogen absorption. This has allowed us to map the 2-D piezoelectric charge distribution in the semiconductor heterostructure. We then used a simple electrostatics model to calculate the impact of this piezoelectric polarization charge on the threshold voltage. The model explains experimental observations of hydrogen-induced threshold voltage shifts, both in InP HEMTS and in GaAs PHEMTs. It also suggests ways to mitigate the hydrogen sensitivity of these devices.
Keywords :
III-V semiconductors; dielectric polarisation; finite element analysis; gallium arsenide; high electron mobility transistors; hydrogen; indium compounds; piezoelectric semiconductors; semiconductor device models; semiconductor device reliability; 2-D piezoelectric charge distribution; Al0.24Ga0.76As-In0.22Ga0.78As-Al0.24Ga0.76As; GaAs; GaAs PHEMTs; H-induced piezoelectric effect model; In0.48Al0.52As-In0.53Ga0.47As-In0.48Al0.52As; InP; InP HEMTs; Ti-containing metal gate; electrostatics model; hydrogen absorption; hydrogen sensitivity; hydrogen-induced threshold voltage shifts; mechanical stress; piezoelectric polarization charge; reliability; semiconductor heterostructure; threshold voltage; two-dimensional finite element simulations; Finite element methods; Gallium arsenide; HEMTs; Hydrogen; Indium phosphide; MODFETs; PHEMTs; Piezoelectric effect; Threshold voltage; Two dimensional displays;
Journal_Title :
Electron Devices, IEEE Transactions on
DOI :
10.1109/TED.2002.804698
