Zonal spherical function

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1. Previous work characterized certain left coideal subalgebras in the quantized enveloping algebra and established an appropriate framework for quantum zonal spherical functions.^[1]
2. The zonal spherical functions are a broad extension of the notion of zonal spherical harmonics to allow for a more general symmetry group.^[2]
3. Zonal spherical functions have been explicitly determined for real semisimple groups by Harish-Chandra.^[3]
4. The abstract functional analytic theory of zonal spherical functions was first developed by Roger Godement.^[3]
5. For semisimple p-adic Lie groups, the theory of zonal spherical functions and Hecke algebras was first developed by Satake and Ian G. Macdonald.^[3]
6. Properties 2, 3 and 4 or properties 3, 4 and 5 characterize zonal spherical functions.^[3]
7. I tried to rotate zonal spherical function, projected onto spherical harmonic basis.^[4]
8. For zonal spherical functions see Spherical harmonics.^[5]
9. A more common usage of the phrase "spherical function" is as follows.^[5]
10. These solutions include the spherical functions associated with irreducible unitary representations.^[5]
11. S. ICHIRO SATAKE Theory of spherical functions on reductive algebraic groups over p-adic elds Publications mathmatiques de lI.H..^[6]
12. 69INTRODUCTIONThe theory of spherical functions on semi-simple Lie groups has been developedby Gelfand, Neumark, Harish-Chandra, Godement and others.^[6]
13. But to determine the explicitform of zonal spherical functions and the Plancherel measure, it seems necessary toknow the (infinite) matrix of this Fourier transformation more explicitly.^[6]
14. For g,eG, /eJf01, we put(5.7) (T,V)(^=/(^)-Then we have:248THEORY OF SPHERICAL FUNCTIONS 25PROPOSITION 5.1.^[6]
15. Am I simply making mistakes in my computation, or is there something wrong in this approach for spherical functions?^[7]
16. 3 zonal spherical functions k(x), k(y) = Gk(x, y), where Gk are Gegenbauer polynomials, zonal spherical functions associated with Harmk(Sd1).^[8]
17. 4 zonal spherical functions k(x), k(y) = Gk(x, y), where Gk are Gegenbauer polynomials, zonal spherical functions associated with Harmk(Sd1).^[8]
18. Let us recall rst what is a spherical function for a Gelfand pair.^[9]
19. Z G where is a bounded spherical function (m is a Haar measure on the group G, which is unimodular since (G, K) is a Gelfand pair).^[9]
20. We will denote the spherical functions of positive type for the Gelfand pair (G, K) (; x) ( , x G).^[9]
21. In the same way the spherical dual is identied with the set of spherical functions of positive type.^[9]
22. We present a sparse analytic representation for spherical functions, in- cluding those expressed in a spherical harmonic (SH) expansion, that is amenable to fast and accurate rotation on the GPU.^[10]
23. We present an alternative basis for spherical functions based on rotated zonal harmonic (ZH) lobes.^[10]
24. Let f () be a spherical function, with = (x, y, z) = (, ) S2, and and are spherical (lat-long) coordinates of point (x, y, z) on the spheres surface, S2.^[10]
25. The process of representing a spherical function, with an initial SH coefcient vector f , in the RZHB with a new coefcient vector z is called Zonal Harmonic Factorization (ZHF).^[10]

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• ID : Q8073863

Spacy 패턴 목록

• [{'LOWER': 'spherical'}, {'LEMMA': 'function'}]
• [{'LOWER': 'zonal'}, {'LOWER': 'spherical'}, {'LEMMA': 'function'}]