Abstract: A superconducting device includes a substrate, a metal oxide or metal oxynitride seed layer on the substrate, and a metal nitride superconductive layer disposed directly on the seed layer. The seed layer is an oxide or oxynitride of a first metal, and the superconductive layer is a nitride of a different second metal.

Abstract: A method and device for quality control of superconducting bands includes: cooling a section of the superconducting band to a temperature at which said band section becomes superconducting, generating an electrical transport current in the superconducting band section in the longitudinal direction of the band by contacting with a contact assembly, contacting the cooled band section with electrical contacts of the contact assembly, which are spaced apart in the longitudinal direction of the band, in order to form a measurement section over a partial length of the band section, continuously moving at least one part of the band through the contact section and/or measurement section to generate the transport current, detecting a physical measured variable using measurement contacts, wherein the physical measured variable is a measure of the superconducting electrical transport properties of the band section or a part of the band.

Abstract: A method of qualifying Niobium and/or other super conducting materials for the reliable fabrication of SCRF cavities, which will invariably deliver high accelerating fields including: identification of the best superconducting lower critical field (HC1) based on subjecting a sample of the superconducting material selectively to mechanical stress, annealing at various temperatures, various chemical treatments, post-chemical treatment baking/annealing; and identification of the best possible thermal conductivity of the material at said best superconducting lower critical field (HC1) to thereby qualify the superconducting material for the reliable fabrication of SCRF cavities adapted to deliver high accelerating fields.

Abstract: Superconducting rf is limited by a wide range of failure mechanisms inherent in the typical manufacture methods. This invention provides a method for fabricating superconducting rf structures comprising coating the structures with single atomic-layer thick films of alternating chemical composition. Also provided is a cavity defining the invented laminate structure.

Abstract: Preparation of oxidation-reduction (redox) nano-medicine quantum dot room temperature superconductor quantum bit (qubit) networks includes processes of making unitary, binary, ternary, and/or quaternary liquid pharmaceutical ingredients of an antioxidase antioxidant, a ?-adrenergic receptor agonist, a P2-purinergic receptor agonist, and/or a phenylalkylamine calcium channel blocker in combination with either 1:20 xanthine oxidase (XO):xanthine (X) or X alone in a liquid phase by using the L16(2)15 and L9(3)4 orthogonal optimization design protocols and modulating spatial distance constraint from about 0.1 ? to about 200 ? as well as a 10 class clean bottom-up self-assembly approach.

Abstract: A method and apparatus for filling superconductive magnets is disclosed by using gaseous helium to control the flow of liquefied helium from a container to a magnet. By measuring the pressure of the gaseous helium in the container of liquefied helium, it can be determined when to stop the flow of liquefied helium. This can reduce quenches and helium losses which can occur during the transfer of liquid helium from the dewar to the superconductive magnet.

Abstract: A method of qualifying Niobium and/or other super conducting materials for the reliable fabrication of SCRF cavities , which will invariably deliver high accelerating fields including: identification of the best superconducting lower critical field (HC1) based on subjecting a sample of the superconducting material selectively to mechanical stress, annealing at various temperatures, various chemical treatments, post-chemical treatment baking/annealing; and identification of the best possible thermal conductivity of the material at said best superconducting lower critical field (HC1) to thereby qualify the superconducting material for the reliable fabrication of SCRF cavities adapted to deliver high accelerating fields.

Abstract: A noncontact method for measuring currents flowing through superconductive wires connected in parallel is provided.

Abstract: A method for manufacturing a high-temperature superconducting conductor includes translating an elongated substrate through a reactor. Further, a high temperature superconducting layer is formed on the substrate translating through the reactor by deposition of a reaction product of metalorganic precursor materials onto the substrate. Further, partial pressure of oxygen is monitored to indirectly monitor supply of metalorganic precursors into the reactor.

Abstract: A method of facilitating superconducting tape manufacturing is provided that includes forming a long-length superconducting tape having a layered structure, comprising a substrate having a dimension ratio not less than about 100, a buffer layer overlying the substrate, and a high temperature superconducting layer overlying the buffer layer. The method further includes characterizing the superconducting tape to create a data set having a plurality of values that are a function of length of the superconducting tape and distributing both the superconducting tape and the data set.

Abstract: The present invention is a high-throughput ion beam assisted deposition (IBAD) system and method of utilizing such a system that enables continuous deposition of thin films such as the buffer layers of HTS tapes. The present invention includes a spool-to-spool feed system that translates a metal substrate tape through the IBAD system as the desired buffer layers are deposited atop the translating substrate tape using an e-beam evaporator assisted by an ion beam. The system further includes a control and monitor system to monitor and regulate all necessary system parameters. The present invention facilitates deposition of a high-quality film over a large area of translating substrate.

Abstract: A method of measuring the critical current value of a superconducting wire comprises the step of measuring first to mth (m denotes an integer of at least 2) current values (I1, I2, . . . , Im) and first to mth voltage values (V1, V2, . . . , Vm) corresponding to the respective ones of the first to mth current values. The first current value I1 and the first voltage value V1 are measured by retaining the current fed from a constant current source to the superconducting wire in a state set to a first set value I1a for a constant time and thereafter measuring the current flowing through the superconducting wire and a voltage generated in the superconducting wire.

Abstract: A dielectric strength test method of a superconducting cable that can evaluate the insulation characteristic of a superconducting cable in a state in which a refrigerant is filled without filling a refrigerant is provided. A tested superconducting cable is filled with gas in place of a refrigerant and a regular dielectric strength test is conducted at room temperature. Preferably, a preliminary dielectric strength test is conducted prior to the regular dielectric strength test. In the preliminary dielectric strength test, a first reference superconducting cable filled with a refrigerant at a predetermined pressure and a second reference superconducting cable filled with gas in place of a refrigerant at a predetermined pressure are provided.

Abstract: A superconducting structure includes an NbN thin-film as a first superconducting thin-film layer on the upper surface of a substrate, an NbN thin-film as a second superconducting thin-film layer above the NbN thin-film, and a MgO thin-film as a protective thin-film provided between the NbN thin-film and the NbN thin-film.

Abstract: A Radio Frequency (RF) component comprising a non-superconducting material, and a superconducting material, wherein the superconducting material is disposed in one or more areas of the RF component such that the areas with superconducting material conduct greater current density than do areas with the non-superconducting material.

Abstract: Superconducting rf is limited by a wide range of failure mechanisms inherent in the typical manufacture methods. This invention provides a method for fabricating superconducting rf structures comprising coating the structures with single atomic-layer thick films of alternating chemical composition. Also provided is a cavity defining the invented laminate structure.

Abstract: The present invention provides an oxide superconductor thick film which is formed on a substrate or a board and has a high Jc and Ic and a method for manufacturing the same. Predetermined amounts of materials containing elements of Bi, Pb, Sr, Ca and Cu are weighed, mixed and subjected to steps of calcining, milling, and drying, and thereafter an organic binder and an organic vehicle are added thereto to prepare a (Bi, Pb)2+aSr2Ca2Cu3O2 superconductive paste, which is applied to the surface of a substrate or a board in a thickness of 260 ?m or more and dried. Thereafter, the paste is first subjected to burning at temperatures of 835° C. to 840° C. for 100 hours, then pressurization, and further burning at temperatures of 835° C. to 840° C. for 100 hours, thereby preparing an oxide superconductor thick film having a film thickness of 130 ?m or more having a high Jc and Ic.

Abstract: A process is described for formation of oxide films independent of thickness from precursor films comprising metals, metal oxides, and metal fluorides with properties and structures similar to those previously only obtained in thin films, for example less than about 0.4 microns.

Abstract: Faults occurring in the operation of a rapid thermal process system are detected and dynamically controlled in-situ. A data set is generated which represents the power applied to heating elements which are spatially arranged in a plurality of zones. The data is converted to a sequence of fractions respectively representing the power applied to each zone relative to the total applied power. The fractions are sequentially arranged and a least squares straight line fit for the fractions is calculated. The slope of the calculated straight line fit is used in a statistical process control system to determine whether a fault has occurred, and to make appropriate corrections in process control parameters, such as the length of time the process is carried out.

Abstract: The order parameter of a superconductor is reduced by injecting spin-polarized carriers into the superconductor. The reduction in the order parameter is used to modulate the critical current of the superconductor. In a typical embodiment, a current is caused to flow through a superconductor. Spin polarized electrons are then injected into the path of the current in the superconductor by biasing a magnetic metal with respect to a terminal of the superconductor. The bias current may be varied to modulate the injection and thus the flow of current through the superconductor.

Abstract: In a Josephson junction device comprises two superconducting electrodes formed of an oxide superconductor and connected through a Josephson junction, a temperature dependent noise of the Josephson junction becomes the minimum at a liquid nitrogen temperature.

Abstract: A superconducting device having a superconducting film measures a characteristic such as its resonance frequency while in an environment having a temperature that is less than or equal to its superconducting transition temperature. A laser then thermally etches the superconducting film on the basis of said measurement in the environment having a temperature that is less than or equal to a superconducting transition temperature.

Abstract: A method of monitoring the fabrication of a superconductive material having a high critical temperature is wherein:the starting material is a mixture of powders of precursors for said material having stoichiometric proportions appropriate for the desired superconductive phase;the said mixture is agglomerated to form a tubular or a cylindrical piece;the agglomerated piece is placed in a controlled-atmosphere oven for synthesizing said superconductive phase;the conductivity of said piece is measured continuously;the temperature at which conductivity begins to decrease is exceeded and then the temperature is returned to a value where conductivity begins to increase; andthe temperature of the oven is permanently adjusted so that said conductivity does not decrease.

Abstract: A dielectric resonator apparatus for measuring the parameters of high temperature superconducting thin film is disclosed having improved means for positioning the dielectric and substrates, holding the resonator components in place during use, suppressing undesirable modes, adjusting the magnetic dipole coupling, and coupling to an electrical circuit.

Abstract: A method is disclosed to increase the critical transition temperature of superconducting materials by the selective application of stress to specific crystal directions. It has been found that by applying tensile stresses in certain directions and compressive stresses in other directions that the critical temperature of superconducting materials can be substantially increased.