Proposed three-terminal superconducting device based on the magnetoelectric effect
Abstract
The development of three-terminal superconducting devices with transistor-like characteristics may be crucial for a number of applications of superconducting electronics. A three-terminal Josephson device which in principle could have gain, and which depends on the magnetoelectric effect is described. The magnetoelectric effect is a property of the antiferromagnetic phase of certain compounds. When an electric field is applied across a magnetoelectric material, a magnetization develops. If one Josephson junction of a two-junction, three-electrode sandwich contained a magnetoelectric barrier, a magnetic field would result if that junction were switched to the finite voltage state. This field, when coupled into the second junction, would cause it to switch from the zero-voltage to the finite voltage state. If the second junction had a larger critical current than the drive junction, then the three-terminal device would have gain.
- Publication:
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IEEE Transactions on Magnetics
- Pub Date:
- March 1985
- DOI:
- Bibcode:
- 1985ITM....21..928G
- Keywords:
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- Barrier Layers;
- Josephson Junctions;
- Magnetoelectric Media;
- Superconductors;
- Fabrication;
- Magnetic Fields;
- Electronics and Electrical Engineering