Workshop on Structural and Electronic Properties of Amorphous Superconductor Superlattices
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Workshop on Structural and Electronic Properties of Amorphous Superconductor Superlattices by Workshop on Structure and Electronic Properties of Amorphous Superconductor Superlattices (1988 University of Tokyo)

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Published by Taylor & Francis in London .
Written in English


Book details:

Edition Notes

Special issue.

Statementedited by K. Morigaki and E.A. Davis.
SeriesPhilosophical magazine B -- vol. 60 (1)
ContributionsDavis, E. A., Morigaki, K.
ID Numbers
Open LibraryOL14331403M

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Recently, the studies of the characteristics and parameters of amorphous semiconductor superlattices and heterojunctions by photoacoustics (PA) and photothermal deflection (PD) techniques have received attention /3,4/ Among the studies of PD spectroscopy of multilayer films, the subgap absorption is an important process for measuring the energy Author: S. Y. Zhang, B. F. Zhang, Z. C. Wang, E. A. Gardner, E. A. Gardner, J. P. Zhou.   In studying the electronic properties of graphene, the team began to play around with simple stacks of graphene sheets. The researchers created two-sheet superlattices by first exfoliating a single flake of graphene from graphite, then carefully picking up half the flake using a glass slide coated with a sticky polymer and an insulating. Structural, Magnetic and Superconducting Properties of Rare Earth/Superconductor Multilayer Films L. ll. Greene. W. L. Feldmann. J. M. Rowell Bell Communications Research, Mountain Avenue, Murray Hill, New Jersey B. Batlogg, E. M. Gyorgy, W. P. Lowe and D. B. McWhan AT &T Bell Laboratories, Mountain Avenue, Murray Hill, New Jersey (Received 4 December, by Cited by: Fundamental Properties of Superconductors The vanishing of the electrical resistance, the observation of ideal diamagnetism, or within the superconductor) are generated by macroscopic currents only, we do not have to distinguish between the magnetic field H and the magnetic flux density B, except for a .

Artificially engineered superlattices of pnictide superconductor S. Lee1, C. Tarantini2, superlattices1,2 offer the possibility of tailoring the superconducting properties and understanding the mechanism of the superconductivity itself. flux pinning for pnictide superconductor has yet been reported, while many investigations of Jc and Cited by: CiteScore: ℹ CiteScore: CiteScore measures the average citations received per document published in this title. CiteScore values are based on citation counts in a given year (e.g. ) to documents published in three previous calendar years (e.g. – 14), divided by the number of documents in these three previous years (e.g. – 14). electronic properties and superconductivity of these systems than hitherto considered. Initially, band structure calculations have been carried out for Y 2 C 2 Br 2 based on the tight-binding linear mu–n tin orbital method [11].   This high-resolution scanning electron microscope image shows the microstructure of boron-doped Q-carbon. Image: Jay Narayan. Researchers at North Carolina State University have significantly increased the temperature at which carbon-based materials can act as superconductors, using a novel, boron-doped Q-carbon material.

Electronic and structural properties of superconducting MgB$_2$, CaSi$_2$ and related compounds We report a detailed study of the electronic and structural properties of the 39K superconductor \mgbtwo and of several related systems of the same family, namely \mgalbtwo, \bebtwo, \casitwo and \cabesi. Internet Archive Python library Transition Temperature of Superconductor-Insulator Superlattices Article (PDF Available) in EPL (Europhysics Letters) 14(3) July with Reads How we measure 'reads'. This breakthrough rekindled the superconducting research, which was in the state of a dying fire after the discovery of Cu oxide superconductor in and MgB2 in This book presents a comprehensive review on the present status of Fe-pnictide superconductors, including the material, a variety of experimental results (photoemission Format: Hardcover. Synthesis, characterization, electronic structure, and phonon properties of the noncentrosymmetric superconductor LaPtSi September Physical Review B 88(10)