The spherical harmonics with the symmetry of the icosahedral group

Norah V. Cohan

doi:10.1017/S0305004100033156

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For a long time there has been some interest in obtaining spherical harmonics with the symmetry of the regular polyhedrons, particularly for electrostatic problema involving polyhedral conductors. Work on the icosahedral group has been done, among others, by Meyer (7), Laporte (6), Hodgkinson (3) and Poole (8), apart from the classic work of Klein (4). In the several approaches of these authors, only spherical harmonics for the totally symmetric representation were obtained, the most complete table being that of Laporte who obtained the spherical harmonics up to l = 21. New interest in the icosahedral group has arisen in connexion with the structureof some proteins (5), and we obtain here, by the recently developed methodof Altmann(1), expansions in spherical harmonics for ali the representations of this group. This has been done up to and including l = 14. (For the totally symmetric representation we have also included l = 15.) In what follows we shall use Altmann's formulae and notation.

References

REFERENCES

(1)Altmann, S. L.Proc. Camb. Phil. Soc. 53 (1957), 343.Google Scholar

(2)Hirschfelder, J. O., Curtiss, C. F. and Bird, R. B.Molecvlar theory: gaaea and liquida (New York, 1954).Google Scholar

(3)Hodgkinson, J.J. Lond. Math. Soc. 10 (1935), 221.Google Scholar

(4)Klein, F.Lectures on the icosahedron and the solution of equations of the fifth degree (London, 1913).Google Scholar

(5)Klug, A.Private communication.Google Scholar

(6)Laporte, O.Z. Naturforsch. 3a (1948), 447.Google Scholar

(7)Meyer, B.Canad. J. Math. 6 (1954), 135.Google Scholar

(8)Poole, G. C.Proc. Lond. Math. Soc. (2), 33 (1932), 435.CrossRef Google Scholar

(9)Wilson, E. B., Decius, J. C. and Cross, P. C.Molecvlar vibrations: the theory of infrared and Raman vibrational spectra (New York, 1955).Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

McLellan, A. G. 1961. Eigenfunctions for Integer and Half-Odd Integer Values of J Symmetrized According to the Icosahedral Group and the Group C3v . The Journal of Chemical Physics, Vol. 34, Issue. 4, p. 1350.

Altmann, S.L. 1962. Aggregates of Particles. Vol. 10, Issue. , p. 87.

Finch, J.T. and Holmes, K.C. 1967. Vol. 3, Issue. , p. 351.

CrossRef

Grunzweig-Genossar, J. Kuznietz, Moshe and Meerovici, Balfour 1970. Nuclear Magnetic Resonance in Uranium Hydride and Deuteride. Physical Review B, Vol. 1, Issue. 5, p. 1958.

Boyle, L. L. 1972. The electronic states of icosahedral molecules. International Journal of Quantum Chemistry, Vol. 6, Issue. 5, p. 919.

Boyle, L. L. and Ożgo, Z. 1973. Icosahedral irreducible tensors and their applications. International Journal of Quantum Chemistry, Vol. 7, Issue. 2, p. 383.

Golding, R.M. 1973. Symmetry coupling coefficients for the icosahedral double group. Molecular Physics, Vol. 26, Issue. 3, p. 661.

Backhouse, N B and Gard, P 1974. The representation theory of the icosahedral group. Journal of Physics A: Mathematical, Nuclear and General, Vol. 7, Issue. 17, p. 2101.

Barton, G and Moore, M A 1975. The likelihood of f-wave pairing in superfluid3He. Journal of Physics C: Solid State Physics, Vol. 8, Issue. 7, p. 970.

Patera, J. and Winternitz, P. 1976. On bases for irreducible representations of O (3) suitable for systems with an arbitrary finite symmetry group. The Journal of Chemical Physics, Vol. 65, Issue. 7, p. 2725.

Bickerstaff, R P and Wybourne, B G 1976. Integrity bases, invariant operators and the state labelling problem for finite subgroups of SO3. Journal of Physics A: Mathematical and General, Vol. 9, Issue. 7, p. 1051.

Patera, J. Sharp, R. T. and Winternitz, P. 1978. Polynomial irreducible tensors for point groups. Journal of Mathematical Physics, Vol. 19, Issue. 11, p. 2362.

Fässler, A. and Schwarzenbach, H. 1979. Symmetriegerechte Polynome von Punktgruppen. Zeitschrift für angewandte Mathematik und Physik ZAMP, Vol. 30, Issue. 2, p. 190.

Pooler, D R 1980. 3-jm, 6-j and isoscalar symbols for the icosahedral group. Journal of Physics A: Mathematical and General, Vol. 13, Issue. 4, p. 1197.

Provencher, Stephen W. and Vogel, Robert H. 1983. Numerical Treatment of Inverse Problems in Differential and Integral Equations. p. 304.

Meijer, Paul H. E. and Cowart, Gregory A. H. 1984. Hybrid finite element method for scalar wave refraction into three-dimensional bodies. Journal of Applied Physics, Vol. 56, Issue. 7, p. 1909.

Damhus, Ture Harnung, Sven E. and Sch�ffer, Claus E. 1984. Phase-fixed double-group 3-? symbols. VI. Real 3-? symbols and coupling coefficients for the group hierarchy I *? C 5 *. Theoretica Chimica Acta, Vol. 65, Issue. 5-6, p. 433.

Raynal, Jacques 1985. On a labeling for point group harmonics. II. Icosahedral group. Journal of Mathematical Physics, Vol. 26, Issue. 10, p. 2441.

Ozaki, Masa-aki and Taahashi, Akira 1986. On electronic states and bond lengths of the truncated icosahedral C60 molecule. Chemical Physics Letters, Vol. 127, Issue. 3, p. 242.

Stone, A.J. and Wales, D.J. 1987. A new structural tensor surface harmonic bonding theory. Molecular Physics, Vol. 61, Issue. 3, p. 747.

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