Title :
Fabrication and characterization of 100-nm In0.53Ga0.47As-In0.52Al0.48As double-gate HEMTs with two separate gate controls
Author :
Wichmann, N. ; Duszynski, I. ; Wallart, X. ; Bollaert, S. ; Cappy, A.
Author_Institution :
Dept. Hyperfrequences et Semiconducteurs, Inst. d´´Electronique, Villeneuve d´´Ascq, France
Abstract :
In this letter, we demonstrate successful operation of 100-nm T-gates double-gate high electron mobility transistors with two separate gate controls (Vg1s ≠ Vg2s). These devices are fabricated by means of adhesive bonding technique using enzocyclocbutene polymer. The additional gate enables the variation of the threshold voltage Vth in a wide range from -0.68 to -0.12V while keeping high cutoff frequency ft of about 170 GHz and high maximum oscillation frequency fmax of about 200 GHz. These devices are considered as being very effective for millimeter-wave mixing applications and are promising devices for the fabrication of velocity modulation transistor (VMT) (Sakaki et al., 1982).
Keywords :
bonding processes; gallium arsenide; high electron mobility transistors; indium compounds; millimetre wave mixers; -0.68 to 0.12 V; In0.53Ga0.47As-In0.52Al0.48As; adhesive bonding technique; benzocyclocbutene polymer; device fabrication; double-gate HEMT; high cutoff frequency; high electron mobility transistors; high maximum oscillation frequency; millimeter-wave mixing applications; separate gate controls; threshold voltage; transferred substrate; velocity modulation transistor; Bonding; Cutoff frequency; Electrodes; Fabrication; HEMTs; MODFETs; Millimeter wave technology; Millimeter wave transistors; Polymers; Threshold voltage; Benzocyclobutene (BCB); InP; bonding; double-gate (DG); high electron mobility transistor (HEMT); transferred substrate; velocity modulation transistor (VMT);
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2005.854353
