Title :
Hydrogen sensitivity of InP HEMTs with WSiN-based gate stack
Author :
Mertens, S.D. ; Alamo, J. A del ; Suemitsu, T. ; Enoki, T.
Author_Institution :
MIT, Cambridge, MA, USA
Abstract :
We have investigated the hydrogen sensitivity of InP HEMTs with a WSiN/Ti/Pt/Au gate stack. We have found that the impact of hydrogen on the threshold voltage of these devices is one order of magnitude smaller than conventional Ti/Pt/Au-gate HEMTs. This markedly improved reliability has been studied through a set of quasi-2D mechanical and electrostatic simulations. These showed that there are two main causes for the improvement of the H-sensitivity. First, the separation of the Ti-layer from the semiconductor by a thick WSiN layer significantly reduces the stress in the active layer. Additionally, the thinner heterostructure and the presence of an InP etch-stop layer with a small piezoelectric constant underneath the gate reduces the amount of threshold voltage shift that is caused by the mechanical stress.
Keywords :
III-V semiconductors; aluminium compounds; gallium arsenide; gold; high electron mobility transistors; indium compounds; platinum; semiconductor device models; semiconductor device reliability; titanium; tungsten compounds; Au-Pt-Ti-WSiN-InGaAs-InAlAs-InP; HEMTs; active layer stress; electrostatic simulations; etch-stop layer; gate stack; piezoelectric constant; quasi-2D mechanical simulations; reliability; threshold voltage; Annealing; Etching; Gold; HEMTs; Hydrogen; Indium phosphide; MODFETs; Photonics; Stress; Threshold voltage;
Conference_Titel :
Indium Phosphide and Related Materials Conference, 2002. IPRM. 14th
Print_ISBN :
0-7803-7320-0
DOI :
10.1109/ICIPRM.2002.1014397
