Spherical harmonics: Difference between revisions

The spherical harmonics ${\displaystyle Y_{l}^{m}(\theta ,\phi )}$ are the angular portion of the solution to Laplace's equation in spherical coordinates. The first few spherical harmonics are given by:

${\displaystyle Y_{0}^{0}(\theta ,\phi )={\frac {1}{2}}{\frac {1}{\sqrt {\pi }}}}$

${\displaystyle Y_{1}^{-1}(\theta ,\phi )={\frac {1}{2}}{\sqrt {\frac {3}{2\pi }}}\sin \theta e^{-i\phi }}$

${\displaystyle Y_{1}^{0}(\theta ,\phi )={\frac {1}{2}}{\sqrt {\frac {3}{\pi }}}\cos \theta }$

${\displaystyle Y_{1}^{1}(\theta ,\phi )=-{\frac {1}{2}}{\sqrt {\frac {3}{2\pi }}}\sin \theta e^{i\phi }}$

See also

• Wigner D-matrix
• Spherical Harmonic -- from Wolfram MathWorld

References

• M. E. Rose "Elementary theory of angular momentum", John Wiley & Sons (1967) Appendix III
• I. Nezbeda, J. Kolafa and S. Labík "The spherical harmonic expansion coefficients and multidimensional integrals in theories of liquids", Czechoslovak Journal of Physics 39 pp. 65-79 (1989)