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3 edition of High-temperature superconductivity technology transfer found in the catalog.

High-temperature superconductivity technology transfer

United States. Congress. House. Committee on Science, Space, and Technology. Subcommittee on Energy Research and Development.

High-temperature superconductivity technology transfer

hearing before the Subcommittee on Energy Research and Development of the Committee on Science, Space, and Technology, House of Representatives, One Hundredth Congress, second session, June 23, 1988

by United States. Congress. House. Committee on Science, Space, and Technology. Subcommittee on Energy Research and Development.

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Published by U.S. G.P.O., For sale by the Supt. of Docs., Congressional Sales Office, U.S. G.P.O. in Washington .
Written in English

    Subjects:
  • High temperature superconductivity -- United States,
  • Technology transfer -- United States,
  • Research, Industrial -- United States

  • Edition Notes

    Other titlesHigh temperature superconductivity technology transfer
    The Physical Object
    Paginationiii, 157 :
    Number of Pages157
    ID Numbers
    Open LibraryOL14287838M

    FLC Southeast Regional Award; Excellence in Technology Transfer Award for developing High-performance LaMnO3 Enabled, High-Temperature Superconducting Tape DOE Excellent Mentor Award DOE Superconductivity Program Annual Peer Review, “Received top ranking with unprecedented high score of out of points” – ORNL. puter systems and software; and services, applications, and solutions (see Figure ).The first three areas are self-explanatory. The fourth is a segment of IBM Research that works closely with IBM customers to develop integrated solutions (hardware and software) for major industry segments such as health care, finance, manufacturing, utilities, and so on.

    Expert is a textbook author who is fully conversant with all aspects of high temperature superconductivity, from basic theory through fabrication techniques through device applications to economic analysis. He is currently serving as the principal technical adviser to a government R&D program on superconductivity. An important survey of early work on high-temperature superconductivity by authors working in Russia's leading research group, headed by Nobel Prize winner, Vitaly I. Ginzburg, at the I.E. Tamm Department of Theoretical Physics of the Lebedev Physics Institute in Moscow.

    High-temperature superconductors (abbreviated high-T c or HTS) are materials that behave as superconductors at unusually [1] high temperatures. The first high-T c superconductor was discovered in by IBM researchers Karl Müller and Johannes Bednorz, [2] [3] who were awarded the Nobel Prize in Physics "for their important break-through in the discovery of . evaluating superconductivity R&D, and leading marketing effort for Renewable Energy technology. - Argonne National Laboratory Author of textbook: Introduction to High Temperature Superconductivity (). Principal author of topical reports to EPRI explaining key concepts in superconductivity. This involved convertingFile Size: KB.


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High-temperature superconductivity technology transfer by United States. Congress. House. Committee on Science, Space, and Technology. Subcommittee on Energy Research and Development. Download PDF EPUB FB2

High-temperature superconductors (abbreviated high-T c or HTS) are operatively defined as materials that behave as superconductors at temperatures above nearly °C ( °F). This is in fact the lowest temperature reachable by liquid nitrogen, one of the simplest coolants in cryogenics. All superconducting materials known at ordinary pressures currently work far.

Get this from a library. High-temperature superconductivity technology transfer: hearing before the Subcommittee on Energy Research and Development of the Committee on Science, Space, and Technology, House of Representatives, One Hundredth Congress, second session, J [United States.

Congress. House. Committee on Science, Space, and Technology. High temperature superconductors have received a great deal of attention in recent years, due to their potential in device and power applications. This book summarises the materials science and physics of all the most important high temperature superconductors as well as discussing material growth, properties and applications.

Superconductivity is the set of physical properties observed in certain materials, wherein electrical resistance vanishes and from which magnetic flux fields are expelled. Any material exhibiting these properties is a an ordinary metallic conductor, whose resistance decreases gradually as its temperature is lowered even down to near absolute zero, a.

Richard Silberglitt (Ph.D., Solid State Physics, University of Pennsylvania,) is a senior physical scientist at RAND. His current research interestsinclude microwave processing of materials, advanced industrial materials, high temperature superconductivity, the electricity transmission and distribution grid, energy scenarios, the process of technological innovation, Cited by: The discovery of high-temperature superconductivity in iron-based materials [] has resulted in significant interest and motivated the exploration of related materials.

The three best-known families are the pnictides based on the ZrCuSiAs-type (tetragonal, P4/nmm) or ThCr 2 Si 2-type (I4/mmm) crystal structures, and the monochalcogenides Fe(Se,Te) (P4/nmm).

@article{osti_, title = {High temperature superconductivity}, author = {Metzger, R M}, abstractNote = {This book contains the proceedings of a conference on high temperature superconductivity. The papers presented include: Microstructural considerations in polycrystalline YBa{sub 2}Cu{sub 3}O{sub 7} and The role of the metallic orbital and of crest and trough.

@article{osti_, title = {High-temperature superconductors}, author = {Brodsky, M B and Dynes, R C and Kitazawa, K and Tuller, H L}, abstractNote = {These proceedings include papers dealing with high-temperature superconductivity. This article focuses on the transfer of patentable technologies through a case study of the Oak Ridge National Laboratory high temperature superconductivity Pilot Center (HTSC-PC).

The Pilot Center was established in to encourage rapid incubation and commercialization of high temperature superconductivity by: 2. Suggested Citation:"Report of the Research Briefing Panel on High-Temperature Superconductivity."National Academy of Sciences, National Academy of Engineering, and Institute of Medicine.

Research Briefings Washington, DC: The National Academies Press. doi: / The flux penetration occurs only when the field exceeds H c and the specimen starts exhibiting the properties of a normal conductor.

In type II superconductors the applied field is completely. High-temperature superconductivity research: an indicator of national science-and-technologypolicy responsiveness Technology transfer from the dim past: Alternatives to re-inventing the wheel.

Carl Ziemke PE Pages Book Reviews. Implementing routine and radical innovations. David A. Tansik, Alok K. Chakrabarti Pages Following the discovery of the oxide superconductors in by Bednorz and Müller, a number of new superconducting compounds was found exhibiting superconductivity above the liquid nitrogen temperature including rare-earth oxides and bismuth oxides, enabling cheaper cooling methods to be : Muralidhar Miryala, Michael Rudolf Koblischka.

Energy Generation, Transmission, and Storage: Applications of High Temperature Superconducting Materials in the Electric Power System — An Ontario Hydro Perspective (F Y Chu) Space Applications: Future Superconductivity Applications in Space — A Review (K Krishen & A Ignatiev) Electronics: Digital Josephson Electronics Technology (Y Wada).

The authors begin this book with a systematic overview of superconductivity, superconducting materials, magnetic levitation, and superconducting magnetic levitation - the prerequisites to understand the latter part of the book - that forms a solid foundation for further study in High Temperature Superconducting Magnetic Levitation (HTS Maglev).

High-temperature superconductors (abbreviated high-T c or HTS) are materials that have a superconducting transition temperature (T c) above 30 K (− °C).From to30 K was thought to be the highest theoretically possible T first high-T c superconductor [1] was discovered in by IBM researchers Karl Müller and Johannes Bednorz, for which they.

The high temperature and/or the long periods sintering decrease the BT (T) value. From the obtained results, the sintering at ̊C for h is the optimum condition to Author: Rainer Wesche. Science and Technology of Thin Film Superconductors - Ebook written by R.D.

McConnell, Stuart A. Wolf. Read this book using Google Play Books app on your PC, android, iOS devices. Download for offline reading, highlight, bookmark or take notes while you read Science and Technology of Thin Film Superconductors.

Although the team’s superconducting material has yet to be verified, the claim has merit – the work was led by Mikhail Eremets, a physicist at the Max Planck Institute for Chemistry, who set the previous high temperature record for superconductivity inat Kelvin ( degrees Celsius).

Superconductivity, first discovered inis a curious phenomenon. Second R&D Award for for Developing High-performance LMO-enabled High-Temperature.

Superconducting Tape. FLC Southeast Regional Award; Excellence in Technology Transfer Award for developing High- performance LaMnO 3 Enabled, High-Temperature Superconducting Tape.

DOE Excellent Mentor AwardAuthor: Allen M. Hermann, John B. Goodenough, G. Subba Rao. and technology transfer were recognized in the areas of high-temperature thermophysics and national hardness standards. Ared Cezairlian was awarded the Yeram S.

Touloukian Award of the American Society of Mechanical Engineers (June ) in recognition of his novel systems for theFile Size: KB.Organizer, High Temperature Superconductivity symposium for the Material Science & Technology (MS&T’07) Conference and Exposition, Septemberin Detroit, Michigan.

Organizer, High Temperature Superconductor Wires & Tapes symposium for the Material Science &.It is very important to elucidate the mechanism of superconductivity for achieving room temperature superconductivity. In the first half of this paper, we give a brief review on mechanisms of superconductivity in many-electron systems.

We believe that high-temperature superconductivity may occur in a system with interaction of large-energy by: 1.