1. Design and implementation of a dual-control active device using YBCO grain-boundary junctions.
- Author
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Nguyen, T., Davidson, B.A., Daniels, G.A., Beyer, J.B., and Nordman, J.E.
- Subjects
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SUPERCONDUCTING thin films , *FIELD-effect transistors , *CRYSTAL grain boundaries , *FLUX flow , *SEMICONDUCTOR research - Abstract
We propose a dual-control active device based on overdamped long junctions. In analogy to the semiconductor dual-gate field effect transistor which can be considered a cascode (output terminals in series) of two single-gate FETs, the dual-control device consists of two single devices in parallel at the outputs. The transresistance of one device is shown to be a linear function of the second control current over a sizable range. This unique feature makes the dual-control device highly desirable for applications such as gain control and mixing, Active devices have been fabricated using arrays of YBCO bi-crystal grain-boundary junctions. Tight coupling of the control fields to the array was achieved by injecting the control current into an "ear" structure at one end of the array. The large-signal current gain, however, is less than 1 due to the asymmetric bias and end injection. Improved current gain with tight coupling to the entire array is necessary for a practical dual-control device. [ABSTRACT FROM PUBLISHER]
- Published
- 1997
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