Negative transconductance in monocrystalline (Al,Ga)As/NiAl/(Al,Ga)As semiconductor/metal/semiconductor tunneling transistors

The authors present the three-terminal transport characteristics of a resonant-tunneling semiconductor-metal-semiconductor (SMS) structure. The buried metal quantum well consists of a 3-nm-thick NiAl layer, epitaxially integrated in (Al,Ga)As, and is contacted by selectively removing the semiconduct...

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Bibliographic Details
Published in:IEEE transactions on electron devices 1989-11, Vol.36 (11), p.2620-2621
Main Authors: Tabatabaie, N., Sands, T., Harbison, J.P., Gilchrist, H.L., Cheeks, T.L., Florez, L.T., Keramidas, V.G.
Format: Article
Language:English
Subjects:
Electrodes
Fabrication
Gallium arsenide
Resonant tunneling devices
Schottky barriers
Semiconductor device doping
Temperature
Transconductance
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Summary:The authors present the three-terminal transport characteristics of a resonant-tunneling semiconductor-metal-semiconductor (SMS) structure. The buried metal quantum well consists of a 3-nm-thick NiAl layer, epitaxially integrated in (Al,Ga)As, and is contacted by selectively removing the semiconductor overgrowth. The undoped AlAs tunneling barriers are 2 nm thick and are set back by 5 nm of undoped GaAs from the doped GaAs electrodes. The GaAs doping densities were adjusted to allow for the fabrication of emitter-up, collector-up, and symmetric transistors. The metal-semiconductor Schottky contacts between the NiAl and the cladding (Al,Ga)As layers were studied in order to characterize the individual interfaces and also to confirm the independence of the ultrathin buried metal electrode. Transistor action has been observed at room temperature in emitter-up structures with a wide (70 nm) undoped GaAs collector spacer. Room-temperature negative transconductance values as high as 1.4 mS/mm/sup 2/ have been obtained for large-area (80- mu m diameter) devices.
ISSN:0018-9383
1557-9646
DOI:10.1109/16.43740