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Antiferromagnetism and onset of Superconductivity in Lanthanum Nickelates

Published online by Cambridge University Press:  21 February 2011

J. Spałek ,
Z. Kakol  and
J. M. Honig
J. Spałek
Affiliation:
Department of Physics Purdue University, West Lafayette, IN 47907
Z. Kakol
Affiliation:
Department of Chemistry Purdue University, West Lafayette, IN 47907
J. M. Honig
Affiliation:
Department of Chemistry Purdue University, West Lafayette, IN 47907
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Abstract

Magnetic moment and resistivity measurements are summarized for the La2−xSrxNiO4 system. They show that the system undergoes a structural phase separation below 70 K. The majority of the sample is antiferromagnetic (AF) below 650 K (for x = 0) or 20 K (for x = 0) or 20 K (for x ≃ 0.2 while the minority phase (≤1% at 4.2 K) is superconducting (SC). An analysis of the results leads to the conclusion that SC and AF coexist in the minority part of the sample; the pairing takes place between 2p holes which propagate through a lattice containing localized 3d moments which, in the ground state, are ordered antiferromagnetically.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 156: Symposium M – High Temperature Superconductors: Relationships Between Properties, Structure, and Solid State Chemistry , 1989 , 57
Copyright
Copyright © Materials Research Society 1989

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References

REFERENCES

[1] Bednorz, J. C. and Müller, K. A., Z. Phys. B64, 189 (1986).Google Scholar
[2] Wu, M. K., Ashburn, J. R., Torng, C. J., Hor, P. H., Meng, R. L., Gao, L., Huang, Z. J., Wang, Y. Q., and Chu, C. W., Phys. Rev. Letters 58, 908 (1987).Google Scholar
[3] Schooley, J. F., Hosler, W. R., and Cohen, M. L., Phys. Rev. Letters 12, 474 (1964).Google Scholar
[4] Johnston, D. C., Prakash, H., Zachariasen, W. H., and Viswanathan, R., Mater. Res. Bull. 8, 777 (1973).Google Scholar
[5] Shanks, H. R., Solid State Commun. 15, 753 (1974).Google Scholar
[6] Sleight, A. W., Gillson, J. L., and Bierstedt, P. E., Solid State Commun. 17, 27 (1975).Google Scholar
[7] Tinkham, M. and Lobb, C. J. in Solid State Physics, edited by Ehrenreich, H. and Turnbull, D. (Academic Press, Boston, 1989) Vol.42. pp. 91 ff.Google Scholar
[8] Beyers, R. and Shaw, T. M., in Solid State Physics, edited by Ehrenreich, H. and Turnbull, D. (Academic Press, Boston, 1989) Vol.42., pp. 135 ff.Google Scholar
[9] Hass, K. C., in Solid State Physics, edited by Ehrenreich, H. and Turnbull, D. (Academic Press, Boston, 1989) Vol.42., pp. 213 ff.Google Scholar
[10] Cava, R. J., Batlogg, B., Krajewski, J. J., Farrow, R., Rupp, L. W. Jr., White, A. E., Short, K., Peck, W. F., and Kometani, T., Nature 332, 814 (1988).Google Scholar
[11] Kąkol, Z., Spałek, J., and Honig, J. M., J. Solid State Chem., 79, 288 (1989); and Solid State Commun., in press.Google Scholar
[12] Spałek, J., Kąkol, Z., and Ihonig, J. M., in preparation.Google Scholar
[13] Harrison, H. R., Aragón, R., Keem, J. E., and Honig, J. M. in Inorganic Syntheses, edited by Holt, S. C. (Wiley, New York, 1983) Vol.22, pp. 43 ff.Google Scholar
[14] Schartman, R. and Honig, J. M., submitted for publication.Google Scholar
[15] Rao, C. N. R., Buttrey, D. J., Otsuka, N., Ganguly, P., Harrison, H. R., Sandberg, C. J., and Honig, J. M., J. Solid State Chem. 51, 266 (1984).Google Scholar
[16] Koenitzer, J. W., Schartman, R., and Wittenauer, M., unpublished.Google Scholar
[17] Lander, G. H., Brown, P. J., Spalek, J., and Honig, J. M., to be published.Google Scholar
[18] London, F., Superfluids (Wiley, New York, 1944) Vol.1, Sec. 13.Google Scholar
[19] Blackstead, H., Moser, E. K., Pulling, D. B., and McGinn, P. J., unpublished.Google Scholar
[20] Rao, C. N. R., Ganguli, A. K., and Nagarajan, R., Pramana 32, L177 (1989).Google Scholar
[21] Axe, J., personal communication.Google Scholar
[22] Spałek, J., Phys. Rev. B38, 208 (1988).Google Scholar