Devices utilizing oriented superconducting ceramics

Superconductor technology: apparatus – material – process – High temperature – per se – Copper containing

Reexamination Certificate

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C505S211000

Reexamination Certificate

active

06506709

ABSTRACT:

BACKGROUND OF THE INVENTION
This invention relates generally to the field of superconducting ceramics and particularly to manufacturing methods for making superconducting ceramics.
It has long been known. that metals such as mercury and lead, intermetallics such as NbNd, Nb
3
Ge and Nb
3
Ga and ternary materials such as Nb
3
(Al
0.8
Ge
0.2
) demonstrate superconductivity. However, the transition temperature of such long known superconducting materials cannot exceed 25° K.
In more recent years, superconducting ceramics have attracted widespread interest. A new material was first reported by researchers at the Zurich laboratory of IBM Corp. as Ba-La-Cu-0-type high temperature superconducting oxides. Subsequently, La-Sr-Cu(II)-0-type superconducting oxides were also proposed. Another type of superconducting material that has been found is (YBa
2
)Cu
3
O
6-8
. By virtue of the fact that these superconducting ceramics form a quasi-molecular atomic unit in a crystalline structure whose unit cell is constructed with one layer in which electrons have essentially one-dimensional motion, whereas only three-dimensional electron conduction occurs in the long known materials mentioned above, higher transition temperatures are achieved.
Much work has been undertaken by researches in this field who have endeavoured to elevate Tco, the temperature at which resistance vanishes, above the levels previously obtained and preferably above the boiling point of nitrogen (77° K.) or even higher. As described in our European Patent Application No. 87309081.5 we have investigated superconducting ceramics materials having the stoichiometric formulae (A
1−x
B
x
)
y
Cu
z
O
w
, where A represents one or more elements of Group IIIb of the Periodic Table, e.g. the rare earth elements, and B represents one or more elements of Group IIa of the Periodic Table, e.g. the alkaline earth elements including beryllium and magnesium, and in the continuation of these investigations we have discovered that the existence of voids and grain boundaries in superconducting ceramic materials makes it difficult to obtain an elevated Tcc.
OBJECTS AND SUMMARY OF THE INVENTION
The present invention thus seeks to provide superconducting ceramics having a higher transition temperature than hitherto and to manufacture superconducting ceramics substantially devoid of imperfections.
Whereas in previous attempts to find higher Tc superconducting materials attention has been focussed upon the composition or molar ratios of the constituent elements, in accordance with the present invention there is principally provided an improved process for the manufacture of superconducting ceramics in accordance with which, during the firing of the raw ceramic constituents, that is to say the chemical compounds which are mixed together to form the superconducting ceramic, an electric current is passed therethrough. By virtue of the passage of this current, it has been found that the ceramic mixture can be given a special orientation in which the atomic arrangement is ordered and made more simple, e.g on the (a,b) plane, so that few grain boundaries and imperfections exist in the final ceramic material.
Whilst the exact mechanism whereby this advantageous effect is obtained is not fully understood, one possibility is that, analogous to the molecular motion which occurs in a magnetic substance in response to the application of a magnetic field thereto, the dipole moments in superconducting ceramics materials may be oriented by the application thereto of an electric field so as to result in a well-arranged structure.
Other features of the invention are set forth with particularity in the appended claims and will become clear to those possessed of the relevant skills from consideration of the following description of exemplary embodiments given with reference to the accompanying drawings.


REFERENCES:
patent: 4939121 (1990-07-01), Rybka
patent: 4975412 (1990-12-01), Okazaki et al.
patent: 5932524 (1999-08-01), Yamazaki
patent: 61-023306 (1986-01-01), None
patent: 61-276305 (1986-12-01), None
Fisk, Z., et al., “Superconductivity of Rare Earth-Barium-Copper Oxides”, Solid State Communications, 62(11), 743-744, Jun. 1987.*
LePage, Y., et al., “Room-temperature structure of the 90-K bulk superconductor YBa2Cu30g-x”, Physical Review B, 35(13), 7245-7248, May 1987.*
C.W. Chu et al., “Evidence for Superconductivity above 40 K in the La-Ba-Cu-O Compound System”, The American Physical Society—Review letters, Jan. 26, 1987, pp. 405-407.
M.K. Wu et al., “Superconductivity at 93 K in a New Mixed-Phase Y-Ba-Cu-O Compound System at Ambient Pressure”, Physical Review Letters, vol. 58, No. 9, Mar. 2, 1987, pp. 908-910.
Sorimachi et al., Japanese Journal of Applied Science, vol. 26, No. 9, Sep. 1987, pp. L1451-L1452.
Zeitschrift für Physik B—Condensed Matter, vol. 66, No. 3, 10th Mar. 1987, pp. 141-146, Springer-Verlag; C. Politis et al.: “Superconductivity at 40 K in Lal.8Sr0.2Cu04”, *pp. 141-143, II experimental procedures.
Materials ResearchBulletin, vol. 20, No. 6, 1985, pp. 667-671, Pregamon Press Ltd., C. Michel et al.: “The oxygen defect perovskite BaLa4Cu5013.4, A Metallic Conductor”, *pp. 667-668, paragraph 3.
Zeitschrift für Physik B—Condensed Matter, vol. 64, 1986, Springer-Verlag; J.G. Bednorz et al.: “Possible High TcSuperconductivity in the Ba-La-Cu-O System”.
Djurek et al., “Sintering of a Mixed Phase Y-Ba-Cu-O in a Pulsed Electric Field,” Nov. 15, 1987, pp. 1195-1198, Europhysics Lett., 4 (10).
Saito et al., “Comparison Dependence of the High Temperature Superconductivity in (Ba, Sr)-La-(Hg, Ag)-Cu-O System with K2NiF4 Type Structure,” Mar. 1987, pp. L223-224, Japanese Journal of Applied Physics, vol. 26, No. 3.
Uchida et al., “High Tc Superconductivity of La-Ba-Cu Oxides,” Jan., 1987, pp. L1-L2, Japanese Journal of Applied Physics, vol. 26, No. 1.
Gallagher, W.J., et al., “Identification and Preparation of Single Phase 90 K Oxide Superconductor and Structural Determinaton by Lattice Imaging”,Solid State Communications, 63 (2) (Jul. 1987), 147-150.*
Grant, P.M., et al., “Superconductivity above 90 K in the compound YBa2Cu3Ox”,Physica Review B, 35 (13) (May 1, 1987).*
LePage, Y., et al., “Room-temperature structure of the 90-K superconductor YBa2Cu3O8-x”,Physica Review B, 35(13) (May 1, 1987), 7245-8.*
Tarascon, J.M., et al., “Superconductivity at 90 K in a multiphase oxide of Y-Ba-Cu”,Physica Review B, 35 (13) (May 1, 1987), 7115-8.*
Engler, E.M. et al., “Superconductivity above Liquid Nitrogen Temperature”,J. Am. Chem. Soc., 109 (9) (Apr. 29, 1987), 2848-9.*
Cava, R.J., et al., “Bulk Superconductivity at 91 K in Single-Phase Oxygen-Deficient Perovskite Ba2YCu3O9-&dgr;”,Physical Review Letters, 58 (16) (Apr. 20, 1987), 1676-9.*
Jorgensen J.D., et al., “Lattice Instability and High-Tc Superconductivity in La2-xBaxCuO4”,Physical Review Letters, 58 (10) (Mar. 9, 1987), 1024-7.*
Mattheiss, L.F., “Band Properties and Superconductivity in La2-yXyCuO4”,Physical Review Letters, 58 (10) (Mar. 9, 1987), 1028-1030.*
Hor, P.H., et al., “High-Pressure Study of the New Y-Ba-Cu-O Superconducting Compound System”,Physical Review Letters, 58 (9) (Mar. 2, 1987), 911-2.*
Chu, C.W., et al., “Superconductivity at 52.5 K in the Lanthanum-Barium-Copper-Oxide System”,Science, 235 (Jan. 30, 1987), 567-9.*
Chu, C.W., et al., “Superconductivity at 40 K in the La-Ba-Cu-O Compound Systems”,Physical Review Letters, 58 (4) (Jan. 26, 1987), 405-7.*
Bednorz, J.G., et al., “Possible High Tc Superconductivity in the Ba-La-Cu-O System”,Z. Phys. B--Condensed Matter, 64 (2) (Sep. 1986), 189-193.

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