This paper reports on new fully-self-aligned gate technology for 0.2-/spl mu/m, high-aspect-ratio, Y-shaped-gate heterojunction-FET's (HJFET's) with about half the external gate-fringing capacitance (C/sub f//sup rext/) of conventional Y-shaped gate HJFET's. The 0.2-/spl mu/m Y-shaped gate openings are realized by anisotropic dry-etching with stepper lithography and SiO/sub 2/ sidewall techniques instead of electron beam lithography. By introducing WSi-collimated sputtering and electroless gold-plating techniques for the first time, we have developed a high-aspect-ratio, voidless and refractory Y-shaped gate-electrode without the need for mask alignments. A fabricated 0.2-/spl mu/m gate n-Al/sub 0.2/Ga/sub 0.8/As/In/sub 0.2/Ga/sub 0.8/As HJFET shows very small current saturation voltage of 0.25 V, marked gm/sub max/ of 631 mS/mm with 6-V gate-reverse breakdown voltage, and excellent threshold voltage uniformity of 9 mV. Also, the improved rf-performance such as f/sub T/=71 GHz and f/sub max/=120 GHz is realized even with the passivation for the high-aspect-ratio gate-structure with reduced C/sub f//sup rext/. The developed technology based upon a fully-self-aligned and an all-dry-etching process provides higher performance and uniformity, thus it is very promising for high-speed and low-power-consumption digital and/or analog IC's/LSI's.