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Date: 28-4-2019
3286
Date: 22-7-2019
3488
Date: 30-3-2019
1800
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The spherical harmonics can be generalized to vector spherical harmonics by looking for a scalar function and a constant vector such that
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so
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Now interchange the order of differentiation and use the fact that multiplicative constants can be moving inside and outside the derivatives to obtain
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and
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Putting these together gives
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so satisfies the vector Helmholtz differential equation if satisfies the scalar Helmholtz differential equation
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Construct another vector function
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which also satisfies the vector Helmholtz differential equation since
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which gives
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We have the additional identity
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In this formalism, is called the generating function and is called the pilot vector. The choice of generating function is determined by the symmetry of the scalar equation, i.e., it is chosen to solve the desired scalar differential equation. If is taken as
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where is the radius vector, then is a solution to the vector wave equation in spherical coordinates. If we want vector solutions which are tangential to the radius vector,
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so
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and we may take
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(Arfken 1985, pp. 707-711; Bohren and Huffman 1983, p. 88).
A number of conventions are in use. Hill (1954) defines
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Morse and Feshbach (1953) define vector harmonics called , , and using rather complicated expressions.
REFERENCES:
Arfken, G. "Vector Spherical Harmonics." §12.11 in Mathematical Methods for Physicists, 3rd ed. Orlando, FL: Academic Press, pp. 707-711, 1985.
Blatt, J. M. and Weisskopf, V. "Vector Spherical Harmonics." Appendix B, §1 in Theoretical Nuclear Physics. New York: Wiley, pp. 796-799, 1952.
Bohren, C. F. and Huffman, D. R. Absorption and Scattering of Light by Small Particles. New York: Wiley, 1983.
Hill, E. H. "The Theory of Vector Spherical Harmonics." Amer. J. Phys. 22, 211-214, 1954.
Jackson, J. D. Classical Electrodynamics, 2nd ed. New York: Wiley, pp. 744-755, 1975.
Morse, P. M. and Feshbach, H. Methods of Theoretical Physics, Part II. New York: McGraw-Hill, pp. 1898-1901, 1953.
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