product representation
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1: 27.4 Euler Products and Dirichlet Series
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►The completely multiplicative function gives the Euler product representation of the Riemann zeta function
(§25.2(i)):
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2: 25.15 Dirichlet -functions
3: 25.10 Zeros
4: Bibliography R
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A non-negative representation of the linearization coefficients of the product of Jacobi polynomials.
Canad. J. Math. 33 (4), pp. 915–928.
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Integral representations for products of Airy functions.
Z. Angew. Math. Phys. 46 (2), pp. 159–170.
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Integral representations for products of Airy functions. II. Cubic products.
Z. Angew. Math. Phys. 48 (4), pp. 646–655.
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Integral representations for products of Airy functions. III. Quartic products.
Z. Angew. Math. Phys. 48 (4), pp. 656–664.
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5: 10.32 Integral Representations
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§10.32(iii) Products
… ►For collections of integral representations of modified Bessel functions, or products of modified Bessel functions, see Erdélyi et al. (1953b, §§7.3, 7.12, and 7.14.2), Erdélyi et al. (1954a, pp. 48–60, 105–115, 276–285, and 357–359), Gröbner and Hofreiter (1950, pp. 193–194), Magnus et al. (1966, §3.7), Marichev (1983, pp. 191–216), and Watson (1944, Chapters 6, 12, and 13).6: 10.9 Integral Representations
7: 9.11 Products
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§9.11(iii) Integral Representations
… ►For an integral representation of the Dirac delta involving a product of two functions see §1.17(ii). …8: 18.17 Integrals
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§18.17(ii) Integral Representations for Products
►Ultraspherical
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… ►For addition formulas corresponding to (18.17.5) and (18.17.6) see (18.18.8) and (18.18.9), respectively. …9: Bibliography V
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Integral representations for products of Lamé functions by use of fundamental solutions.
SIAM J. Math. Anal. 15 (3), pp. 559–569.
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