 Wafer probe |
| Referring to FIG. 1, a probe configuration according to the present invention suitably comprises a ... |
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| Miniature wide-band microwave power divider |
| A wide-band microwave power divider/combiner is provided in accordance with this invention which ... |
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| Primary flat cell |
| What is claimed is: 1. In a primary dry cell, a sealed flexible non-conductive plastic envelope, ... |
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| Seal for alkaline primary battery |
| An alkaline battery seal comprising a sealant, such as bitumen and/or fatty polyamides, compressed ... |
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| Method of and apparatus for cleaning down well valves of well pumps in situ |
| Now with reference to FIG. 1, a vertical I-beam 1 supports auxiliary pumping mechanism and extends ... |
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| Heat treatment of material |
| We claim: 1. Apparatus for the heat treatment of a material in discrete form including a ... |
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| Reformer reaction control apparatus for a fuel cell |
| It is an object of this invention to provide a reformer reaction control system for improving the ... |
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| Explosion-suppressive masses |
| Applicant has found that the filler masses formed of multiple layers of expanded metal are often of ... |
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| Self-contained mooring system for a drill ship |
| Referring to the drawings in detail, and particularly the embodiment as shown in FIGS. 1-4, the ... |
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| Lift vehicle |
| I claim: 1. A load-lifting assembly for a fork lift truck or the like, comprising: a support; a ... |
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Microelectronic superconducting device with multi-layer contact
| Details |
Inventors: Wellstood, Frederick C.; Kingston, John J.; Clarke, John;
Assignee: The Regents of the University of Calif. (Oakland, CA)
Primary Examiner: Hille; Rolf
Assistant Examiner: Saadat; Mahshid
Attorney, Agent or Firm: Martin; Paul R., Moss; Kathleen S., Ross; Pepi
A microelectronic component comprising a crossover is provided comprising a substrate, a first high T.sub.c superconductor thin film, a second insulating thin film comprising SrTiO.sub.3 ; and a third high T.sub.c superconducting film which has strips which crossover one or more areas of the first superconductor film. An insitu method for depositing all three films on a substrate is provided which does not require annealing steps. The photolithographic process is used to separately pattern the high T.sub.c superconductor thin films. |
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DETAILED DESCRIPTION What is claimed is: 1.
A microelectronic device comprising a substrate; a first thin film of high T.
sub.
c metal oxide superconductor material deposited on said substrate; a second thin film deposited on said first thin film, said second thin film having at least one hole, said second thin film being comprised of a material having high resistivity at temperatures below T.
sub.
c, and having a microstructure which is epitaxial; and a plurality of layers deposited within said hole.
2.
The device according to claim 1 wherein said plurality of layers comprises a first layer of superconductor material in contact with said first thin film, a second layer of insulating material on top of said first layer, and a third layer of superconductor material on top of said second layer.
3.
The device according to claim 1 wherein said plurality of layers comprises a first layer of superconductor material in contact with said first thin film, a second layer of metal on top of said first layer, and a third layer of superconductor material on top of said second layer of metal.
4.
A microelectronic device comprising a substrate; a first thin film of high T.
sub.
c metal oxide superconductor material deposited on said substrate; a second thin film deposited on said first thin film, said second thin film having at least one hole, said second thin film being comprised of a material having high resistivity at temperatures below T.
sub.
c, and having a microstructure which is epitaxial, and a third thin film of high T.
sub.
c metal oxide superconductor material, said third thin film making contact with said first thin film through said hole, wherein said second thin film has first and second opposite surfaces, and wherein said hole extends from said first surface of said second thin film facing said first thin film to a second surface of said second thin film away from said first surface, said hole having a beveled wall for providing a slope to guide the deposition of said third thin film from said second surface into said hole
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Fuel Cells 
