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Top Seeded Solution Growth of Lanthanum Copper Oxide

Published online by Cambridge University Press:  28 February 2011

P. J. Picone ,
H. P. Jenssen ,
D. R. Gabbe  and
H. L. Tuller
P. J. Picone
Affiliation:
Visiting Scientist from Surveillance Research Laboratory Defence Science Technology Organization, GPO Box 2151 Adelaide S.A, Australia 5001
H. P. Jenssen
Affiliation:
Crystal Physics & Optical Electronics Laboratory, Center for Materials Science and Engineering and Department of Materials Science & Engineering, Massachusetts Institute of Technology, Cambridge MA. 02139
D. R. Gabbe
Affiliation:
Crystal Physics & Optical Electronics Laboratory, Center for Materials Science and Engineering and Department of Materials Science & Engineering, Massachusetts Institute of Technology, Cambridge MA. 02139
H. L. Tuller
Affiliation:
Crystal Physics & Optical Electronics Laboratory, Center for Materials Science and Engineering and Department of Materials Science & Engineering, Massachusetts Institute of Technology, Cambridge MA. 02139
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Abstract

Single crystals of pure and Sr doped La2CuO4 have been grown with a top seeded solution growth technique. Crystals grown from a lithium borate flux incorporate impurities detrimental to superconductive properties while those grown from excess copper oxide are free from this difficulty.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 99: Symposium AA – High-Temperature Superconductors , 1987 , 279
Copyright
Copyright © Materials Research Society 1988

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References

REFERENCES

[1]. Tarascon, J.M., Greene, L.H., McKinnon, W.R., Hull, G.W. & Geballe, T.H.. Science 235 1373 (1987)Google Scholar
[2]. Belruss, V., Kalnajs, J., Linz, A., & Folweiler, R.C.. Mat. Res. Bull. 6, 899906 (1971)Google Scholar
[31]. Hidaka, Y., Enomoto, Y., Suzuki, M., Oda, M. & Murakami, T. Submitted to J. of Crystal Growth. (1987)Google Scholar
[4]. Picone, P.J., Jenssen, H.P. & Gabbe, D.R.. Accepted J Crystal Growth. (1987)Google Scholar
[5]. Birgeneau, R.J., Chen, C.Y., Gabbe, D.R., Jenssen, H.P., Kastner, M.A., Peters, C.J., Picone, P.J., Thio, Tineke, Thurston, T.R., Tuller, H.L., Axe, J.D., Boni, P. & Shirane, G.. Accepted Phys. Rev. Lett. (1987)Google Scholar
[6]. Kastner, M.A., Birgeneau, R.J., Chen, C.Y., Chiang, Y.M., Gabbe, D.R., Jenssen, H.P., Junk, T., Peters, C.J., Picone, P.J., Thio, Tineke, Thurston, T.R., & Tuller, H.L.. Submitted to Phys Rev Letters (1987)Google Scholar
[7]. Hidaka, Y., Enomoto, Y., Suzuki, M., Oda, M. & Murakami, T. Jap. J. of App. Phys. 26 13681370 (1987)Google Scholar
[8]. Grant, P.M., Parkin, S.S.P., Lee, V.Y., Engler, E.M., Ramirez, M.L., Vazquez, J.E., Lim, G., Jacowitz, R.D., & Greene, R.L.. Phys Rev Letts 58, 2482 (1987)Google Scholar
[9]. Kastner, M.A. Private Communication.Google Scholar
[10] Demazeau, G., Parent, C., Pouchard, M. & Hagenmuller, P.. Mat Res Bull 7 913 (1972)Google Scholar