Abstract

The dc, small-signal microwave, and large-signal switching performance of normally off and normally on Al 0.5 Ga 0.5 As gate heterojunction GaAs field-effect transistors (HJFET) with submicrometer gate lengths are reported. The structure of both types of devices comprises an n-type 1017-cm-3Sn-doped active layer on a Cr-doped GaAs substrate, a p-type 1018-cm-3Ge-doped Al 0.5 Ga 0.5 As gate layer and a p+-type 5 × 1018-cm-3Ge-doped GaAs contact and cap layer on the top of the gate. The gate structure is obtained by selectively etching the p+-type GaAs and Al 0.5 Ga 0.5 As. Undercutting of the Al 0.5 Ga 0.5 As layer results in submicrometer gate lengths, and the resulting p+-GaAs overhang is used to self-align the source and the drain with respect to the gate. Normally off GaAs FET's with 0.5- to 0.7-µm long heterojunction gates exhibit maximum available power gains (MAG) of about 9 dB at 2 GHz. Large-signal pulse measurements indicate an intrinsic propagation delay of 40 ps with an arbitrarily chosen 100-Ω drain load resistance in a 50-Ω microstrip circuit. Normally on FET's with submicrometer gate lengths (∼0.6 µm) having a total gate periphery of 300 µm and a corresponding dc transconductance of 20-30 mmhos exhibit a MAG of 9.5 dB at 8 GHz. The internal propagation delay time measured under the same conditions as above is about 20 ps.

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