Novel Metal/2-DEG Junction Transistors

Authors

W. C.B. Peatman, Univ of Virginia
H. Park, Univ of Virginia
B. Gelmont, Univ of Virginia
M. Shur, Univ of Virginia
P. Maki, Univ of Virginia
Elliott R. Brown, Wright State University - Main CampusFollow
M. J. Rooks, Univ of Virginia

Document Type

Article

Publication Date

1-1-1993

Identifier/URL

40185312 (Pure); 0027887827 (QABO)

Abstract

We present here the research on new metal/2-dimensional electron gas (2-DEG) Schottky contacts. This new high speed contact has unique characteristics which are particularly promising for applications in the fields of millimeter wave electronics and high speed, low power integrated circuits. We describe here two new transistors which utilize a side-gate formed by plating gate metal into a trench etched through the plane of the 2-DEG. The first transistor is the Schottky-gated resonant tunneling transistor (SG-RTT) which has demonstrated high transconductance and novel switching properties at room temperature. The second device is a novel 2-dimensional metal-semiconductor field effect transistor (2-D MESFET) which is particularly promising for low power, high speed integrated circuit applications. We also briefly discuss several applications of these new transistors.

Repository Citation

Peatman, W. C., Park, H., Gelmont, B., Shur, M., Maki, P., Brown, E. R., & Rooks, M. J. (1993). Novel Metal/2-DEG Junction Transistors. Proceedings of the IEEE Cornell Conference on Advanced Concepts in High Speed Semiconductor Devices and Circuits, 314-319.
https://corescholar.libraries.wright.edu/physics/1422

DOI

10.1109/CORNEL.1993.303101