The Mott diode as a heterodyne receiver element |
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Authors: | James O. Marsh Thomas W. Crowe Jeffrey Hesler |
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Affiliation: | (1) Semiconductor Device Laboratory Department of Electrical Engineering, University of Virginia, 22903 Charlottesville, VA |
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Abstract: | This paper considers a novel doping profile for Schottky barrier mixer diodes called the Mott barrier. The structure consists of a metal-semiconductor junction in which the semiconductor's epitaxial layer is very lightly doped and thin enough so that it remains depleted even under substantial forward bias. It has been proposed that Mott barrier diodes will generate less noise and have lower series resistance-junction capacitance products than standard Schottky diodes, thus increasing the sensitivity and cut-off frequency of heterodyne receivers. In this paper, the band structure and electron transport properties of the Mott diode are evaluated. This analysis shows that the Mott diode actually will have a large series resistance-junction capacitance product and excessive hot electron noise, making it a poor candidate for high-frequency applications. Experimental results are presented which substantiate these conclusions. |
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