Texturing of high-Tcsuperconductors

Desgardin, G.; Monot, I.; Raveau, B.

doi:10.1088/0953-2048/12/7/202

Cited by 57 publications

(29 citation statements)

References 114 publications

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“…2 process of bulk melt-textured YBCO by introducing of small amounts of CeO 2 and Pt. The amount and optimal size of non-superconducting inclusions required for obtaining a maximal J c in type 2 superconductors and, in particular, in melt-textured YBCO is the subject of wide speculation .…”

mentioning

confidence: 99%

Effect of mesoscopic inhomogeneities on the critical current of bulk melt-textured YBCO

Uspenskaya

Naumenko

Емельченко

et al. 2003

Physica C: Superconductivity

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The downsizing 211-inclusions and an increase of their density leads to rise in mean critical current value in Y-based melt textured material. Very often 211-inclusion are spread in the material volume nonhomogeneous, with typical scale 50 -100 micrometer. Therefore it's difficult to find the real correlation between local critical current and the inclusions distribution. We performed a study of a local critical current using modified magneto-optic technique on a melt-textured YBaCuO ceramic, found the areas with constant current and studied the real structure of the material in the areas, inclusions distribution and their sizes, by scanning electron microscopy and X-ray microanalysis. The estimation of a pinning in these places, by taking into account the amount of inclusions and the length of their boundaries, and comparison with the value of local critical current reveals a strait correlation between the density of inclusions and the current but shows remarkable quantitative disagreement.

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mentioning

confidence: 99%

Effect of mesoscopic inhomogeneities on the critical current of bulk melt-textured YBCO

Uspenskaya

Naumenko

Емельченко

et al. 2003

Physica C: Superconductivity

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“…However, the "quick and dirty" version melt-textured 123-HTS bulk material can be grown reproducibly in sizes up to a diameter d = 6 cm even in complex shapes 56 [315], it shows superb magnetic pinning properties and is already tested as high-field permanent magnets, e. g., in magnetic bearings and motors [316]. Strong pinning allows the "freezing" of high magnetic fields, e. g., in single domain cylinders with a diameter of 30 mm an induction of 1.3 T can thus be fixed at 77 K [315], 17 T at 29 K has been demonstrated in-between two such samples [317].…”

Section: Among Other Types Of Hts Contacts Intrinsic Josephson Junctmentioning

confidence: 99%

Superconducting Materials — A Topical Overview

Hott¹,

Kleiner

Wolf³

et al.

Frontiers in Superconducting Materials

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“…Very precise thermal gradients and time-temperature processing are involved. The melt-textured techniques and the related different methods are reviewed by Desgardin (1999).…”

Section: Production Techniques and Materialsmentioning

confidence: 99%

Design of a Quantum Source of High-Frequency Gravitational Waves (HFGW) and Test Methodology

Fontana¹

2004

AIP Conference Proceedings

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Abstract. The generation of High-Frequency Gravitational Waves (HFGW) has been identified as the required breakthrough that will lead to new forms of space propulsion. Many techniques have been devised to generate HFGW, but most of them exhibit marginal efficiency, therefore the power emitted in form of gravitational waves (GW) is orders of magnitude lower than the input power. The gravitational wave counterpart of the LASER, termed Gravitational-wave LASER or "GASER" is the quantum approach to the efficient generation of gravitational waves. Electrons, protons, muons, etc, all have charge and mass, if accelerated they usually lose energy through the very fast electric and magnetic channels, this causes a negligible emission through the gravitational channel. Quantum systems can be engineered to forbid electric and magnetic transitions, therefore the gravitational spin-2 transitions can take place. A class of active materials, suitable for making a GASER based on electronic transitions in the solid state, is identified along with their relevant physical properties. Means for creating coherence and population inversion and means to increase the emission probability are described. The expected performances of the device are derived from quantum gravitational theories. Additional properties of the active materials are considered to enforce the theoretical foundation of the device. A proof-of-concept device, operating at about 1 THz, is described. Experiments are proposed as a natural starting point of the research.

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Texturing of high-T_csuperconductors

Cited by 57 publications

References 114 publications

Effect of mesoscopic inhomogeneities on the critical current of bulk melt-textured YBCO

Effect of mesoscopic inhomogeneities on the critical current of bulk melt-textured YBCO

Superconducting Materials — A Topical Overview

Design of a Quantum Source of High-Frequency Gravitational Waves (HFGW) and Test Methodology

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