مرکز منطقه ای اطلاع رساني علوم و فناوري - 0.15- <img src="/images/tex/1021.gif" alt="\\mu\\hbox {m}"> -Gate InAlAs/InGaAs/InP E-HEMTs Utilizing Ir/Ti/Pt/Au Gate Structure

DocumentCode :

798103

Title :

0.15- $\\mu\\hbox {m}$ -Gate InAlAs/InGaAs/InP E-HEMTs Utilizing Ir/Ti/Pt/Au Gate Structure

Author :

Kim, Seiyon ; Adesida, Ilesanmi

Author_Institution :

Dept. of Electr. & Comput. Eng., Illinois Univ., Urbana, IL

Volume :

Issue :

fYear :

2006

Firstpage :

873

Lastpage :

876

Abstract :

High-current 0.15-mum-gate enhancement-mode high-electron mobility transistors utilizing Ir/Ti/Pt/Au gate metallization were fabricated using a new process including a high-temperature gate anneal that is required for Schottky-barrier height enhancement for the Ir-based gate contact. SiN_x encapsulation was employed to prevent thermal degradation of device layer during the high-temperature gate anneal. Excellent enhancement-mode operation, with a threshold voltage of 0.1 V and I_DSS of 2.1 mA/mm, was realized. Both the annealed and unannealed devices exhibited high g_m,max and I_D,max of 800 mS/mm and 430 mA/mm, respectively. A unity current-gain cutoff frequency f_T of 151 GHz and a maximum oscillation frequency f_MAX of 172 GHz were achieved. From the dc and RF characteristics, it can be deduced that there was no degradation of the gate contact and the heterostructure due to gate annealing. Furthermore, it was found that the gate diffusion during gate annealing was negligible since no increase in g_m,max was observed

Keywords :

aluminium; annealing; encapsulation; gallium arsenide; high electron mobility transistors; indium compounds; iridium compounds; metallisation; platinum compounds; titanium compounds; 0.1 V; 0.15 micron; E-HEMT; InAlAs-InGaAs-InP; Ir-Ti-Pt-Au; Schottky-barrier height enhancement; annealed devices; encapsulation; enhancement-mode high-electron mobility transistors; gate annealing; gate metallization; high-current gate structure; high-temperature gate anneal; maximum oscillation frequency; thermal degradation; unannealed devices; unity current-gain cutoff frequency; Annealing; Cutoff frequency; Gold; HEMTs; Indium compounds; Indium gallium arsenide; Indium phosphide; MODFETs; Metallization; Silicon compounds; Enhancement-mode high-electron mobility transistor (E-HEMT); InP E-HEMT; iridium gate;

fLanguage :

English

Journal_Title :

Electron Device Letters, IEEE

Publisher :

ieee

ISSN :

0741-3106

Type :

jour

DOI :

10.1109/LED.2006.883563

Filename :

1715452

Link To Document :

https://search.ricest.ac.ir/dl/search/defaultta.aspx?DTC=49&DC=798103