Title :
High temperature performance of recessed gate GaN MESFETs fabricated using photoelectrochemical etching process
Author :
Sang Lee, Won ; Ho Choi, Yoon ; Woong Chung, Ki ; Chan Moon, Dong ; Whan Shin, Moo
Author_Institution :
Device & Mater. Lab., LG Corp. Inst. of Technol., Seoul, South Korea
fDate :
2/3/2000 12:00:00 AM
Abstract :
Recessed gate GaN MESFETs have been fabricated by employing a new photoelectrochemical etching method which utilises a photoresistive mask and KOH based etchant. The etching rate of the etchant with 1.0 mol% of KOH for n-GaN is as high as 1600 Å/min at an Hg illumination intensity of 35 mW/cm2. The fabricated GaN MESFET exhibits current saturation at Vds=4 V and pinch-off at Vgs=-3 V with a peak drain current of ~240 mA/mm at 300 K. The DC performance of the device does not change considerably with temperature in the range 300-473 K
Keywords :
III-V semiconductors; Schottky gate field effect transistors; etching; gallium compounds; high-temperature electronics; leakage currents; wide band gap semiconductors; -3 V; 300 to 473 K; 4 V; DC performance; GaN; Hg; Hg illumination intensity; KOH; KOH based etchant; high temperature performance; n-type GaN; photoelectrochemical etching process; photoresistive mask; recessed gate GaN MESFETs;
Journal_Title :
Electronics Letters
DOI :
10.1049/el:20000215
