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Approximate wave functions, with exchange for Mn+2

Published online by Cambridge University Press:  24 October 2008

D. R. Hartree
Affiliation:
Cavendish LaboratoryCambridge

Extract

There has recently been some interest in atomic wave functions for the Mn+2 ion in two different physical contexts, namely neutron diffraction (Shull, Straussen and Wollan (12), and Halpern (3)) and luminescence in solids (Williams (14)). In the neutron diffraction context the particular substance concerned is MnF2, for which the nuclear scattering is small so that the main contribution to the diffraction of slow neutrons is through the magnetic scattering by the incomplete (3d)5 group of the Mn+2 ion.

Type
Research Article
Copyright
Copyright © Cambridge Philosophical Society 1955

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References

REFERENCES

(1)Catalan, M. A., Rohrlich, R. and Shenstone, A. G.Proc. roy. Soc. A, 221 (1954), 421.Google Scholar
(2)Condon, E. U. and Shortley, G. H.The theory of atomic spectra (Cambridge, 1935 and 1951).Google Scholar
(3)Halpern, O. Private communication.Google Scholar
(4)Hartree, D. R. and Hartree, W.Proc. roy. Soc. A, 156 (1936), 45.Google Scholar
(5)Hartree, D. R. and Hartree, W.Proc. roy. Soc. A, 157 (1936), 490.Google Scholar
(6)Hartree, D. R. and Hartree, W.Proc. roy. Soc. A, 164 (1937), 167.Google Scholar
(7)Hartree, D. R. and Hartree, W.Proc. roy. Soc. A, 166 (1938), 450.Google Scholar
(8)Hartree, D. R.Rep. Progr. Phys. 11 (1948), 113.Google Scholar
(9)Hund, F.Linienspektren (Berlin, 1927).CrossRefGoogle Scholar
(10)Laporte, O.Phys. Rev. 61 (1942), 302.CrossRefGoogle Scholar
(11)Racah, G.Phys. Rev. 62 (1942), 438.CrossRefGoogle Scholar
(12)Shull, C. A., Straussen, W. A. and Wollan, E. O.Phys. Rev. 83 (1951), 336.CrossRefGoogle Scholar
(13)Taylor, W. H.Acta Metallurgica, 2 (1954), 684.CrossRefGoogle Scholar
(14)Williams, F. E.Brit. J. appl. Phys. Supplement no. 4, paper no. 19, 1954 (in the Press).Google Scholar