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reduction to hypergeometric differential equation

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1: 15.11 Riemann’s Differential Equation
The reduction of a general homogeneous linear differential equation of the second order with at most three regular singularities to the hypergeometric differential equation is given by …
2: Bibliography W
  • P. L. Walker (2012) Reduction formulae for products of theta functions. J. Res. Nat. Inst. Standards and Technology 117, pp. 297–303.
    External Links:
    Document
    Referenced by:
    (20.7.34), §20.7(ix).
    Encodings:
    BibTeX
  • W. Wasow (1965) Asymptotic Expansions for Ordinary Differential Equations. Interscience Publishers John Wiley & Sons, Inc., New York-London-Sydney.
    Notes:
    Reprinted by Krieger, New York, 1976 and Dover, New York, 1987.
    External Links:
    MathReview (N. D. Kazarinoff), ZentralBlatt
    Referenced by:
    Ch.2, Ch.9.
    Encodings:
    BibTeX
  • G. N. Watson (1910) The cubic transformation of the hypergeometric function. Quart. J. Pure and Applied Math. 41, pp. 70–79.
    External Links:
    ZentralBlatt
    Referenced by:
    §15.8(v), §15.8(v).
    Encodings:
    BibTeX
  • G. Wei and B. E. Eichinger (1993) Asymptotic expansions of some matrix argument hypergeometric functions, with applications to macromolecules. Ann. Inst. Statist. Math. 45 (3), pp. 467–475.
    External Links:
    ISSN 0020-3157, Document, MathReview (N. K. Thakare), ZentralBlatt
    Referenced by:
    §35.9.
    Encodings:
    BibTeX
  • R. Wong and H. Y. Zhang (2007) Asymptotic solutions of a fourth order differential equation. Stud. Appl. Math. 118 (2), pp. 133–152.
    External Links:
    ISSN 0022-2526, Document, MathReview Entry
    Referenced by:
    §2.8(vi).
    Encodings:
    BibTeX
    • 3: Bibliography G
  • L. Gårding (1947) The solution of Cauchy’s problem for two totally hyperbolic linear differential equations by means of Riesz integrals. Ann. of Math. (2) 48 (4), pp. 785–826.
    External Links:
    FullText, MathReview (E. T. Copson), ZentralBlatt
    Referenced by:
    §35.2, §35.3(ii).
    Encodings:
    BibTeX
  • W. Gautschi (2002b) Gauss quadrature approximations to hypergeometric and confluent hypergeometric functions. J. Comput. Appl. Math. 139 (1), pp. 173–187.
    External Links:
    ISSN 0377-0427, Document, MathReview (Hasan Taşeli), ZentralBlatt
    Referenced by:
    §13.29(iii), §15.19(iii).
    Encodings:
    BibTeX
  • A. Gil, J. Segura, and N. M. Temme (2004b) Computing solutions of the modified Bessel differential equation for imaginary orders and positive arguments. ACM Trans. Math. Software 30 (2), pp. 145–158.
    External Links:
    ISSN 0098-3500, Document, MathReview, ZentralBlatt
    Referenced by:
    §10.74(viii).
    Encodings:
    BibTeX
  • J. J. Gray (2000) Linear Differential Equations and Group Theory from Riemann to Poincaré. 2nd edition, Birkhäuser Boston Inc., Boston, MA.
    External Links:
    ISBN 0-8176-3837-7, MathReview, ZentralBlatt
    Referenced by:
    §15.17(v).
    Encodings:
    BibTeX
  • N. Gray (2002) Automatic reduction of elliptic integrals using Carlson’s relations. Math. Comp. 71 (237), pp. 311–318.
    External Links:
    ISSN 0025-5718, Document, MathReview (David A. Richter), ZentralBlatt
    Referenced by:
    §19.29(ii).
    Encodings:
    BibTeX
    • 4: Bibliography C
  • B. C. Carlson and J. FitzSimons (2000) Reduction theorems for elliptic integrands with the square root of two quadratic factors. J. Comput. Appl. Math. 118 (1-2), pp. 71–85.
    Notes:
    Code written by the second author to compute symmetric elliptic integrals numerically in the Derive computer algebra system is available.
    External Links:
    ISSN 0377-0427, Document, Code, MathReview, ZentralBlatt
    Referenced by:
    §19.29(ii), §19.36(i), §19.36(i), §19.39(iv).
    Encodings:
    BibTeX
  • B. C. Carlson (2006b) Table of integrals of squared Jacobian elliptic functions and reductions of related hypergeometric R -functions. Math. Comp. 75 (255), pp. 1309–1318.
    External Links:
    ISSN 0025-5718, Document, MathReview, ZentralBlatt
    Referenced by:
    §19.25(v), §19.29(i), §22.14(ii).
    Encodings:
    BibTeX
  • T. W. Chaundy (1969) Elementary Differential Equations. Clarendon Press, Oxford.
    External Links:
    ISBN 0-19-853139-7, MathReview, ZentralBlatt
    Referenced by:
    §16.12.
    Encodings:
    BibTeX
  • P. A. Clarkson and M. D. Kruskal (1989) New similarity reductions of the Boussinesq equation. J. Math. Phys. 30 (10), pp. 2201–2213.
    External Links:
    ISSN 0022-2488, Document, Link, MathReview (B. V. Baby), ZentralBlatt
    Referenced by:
    Profile Peter A. Clarkson.
    Encodings:
    BibTeX
  • P. A. Clarkson (1991) Nonclassical Symmetry Reductions and Exact Solutions for Physically Significant Nonlinear Evolution Equations. In Nonlinear and Chaotic Phenomena in Plasmas, Solids and Fluids (Edmonton, AB, 1990), W. Rozmus and J. A. Tuszynski (Eds.), pp. 72–79.
    External Links:
    MathReview
    Referenced by:
    §29.19(ii).
    Encodings:
    BibTeX
    • 5: Bibliography D
  • T. M. Dunster, D. A. Lutz, and R. Schäfke (1993) Convergent Liouville-Green expansions for second-order linear differential equations, with an application to Bessel functions. Proc. Roy. Soc. London Ser. A 440, pp. 37–54.
    External Links:
    ISSN 0962-8444, FullText, MathReview (W. Balser), ZentralBlatt
    Referenced by:
    §10.41(iii), §2.8(i).
    Encodings:
    BibTeX
  • T. M. Dunster (1996a) Asymptotic solutions of second-order linear differential equations having almost coalescent turning points, with an application to the incomplete gamma function. Proc. Roy. Soc. London Ser. A 452, pp. 1331–1349.
    External Links:
    ISSN 0962-8444, FullText, MathReview, ZentralBlatt
    Referenced by:
    §2.8(vi), §8.12, §8.12.
    Encodings:
    BibTeX
  • T. M. Dunster (2001a) Convergent expansions for solutions of linear ordinary differential equations having a simple turning point, with an application to Bessel functions. Stud. Appl. Math. 107 (3), pp. 293–323.
    External Links:
    ISSN 0022-2526, Document, MathReview, ZentralBlatt
    Referenced by:
    §10.20(ii), §2.8(i).
    Encodings:
    BibTeX
  • T. M. Dunster (2004) Convergent expansions for solutions of linear ordinary differential equations having a simple pole, with an application to associated Legendre functions. Stud. Appl. Math. 113 (3), pp. 245–270.
    External Links:
    ISSN 0022-2526, Document, MathReview (Wolfgang Bühring), ZentralBlatt
    Referenced by:
    §14.15(iii), §2.8(i).
    Encodings:
    BibTeX
  • T. M. Dunster (2014) Olver’s error bound methods applied to linear ordinary differential equations having a simple turning point. Anal. Appl. (Singap.) 12 (4), pp. 385–402.
    External Links:
    ISSN 0219-5305, Document, Link, MathReview (Thomas Mbah Acho), ZentralBlatt
    Referenced by:
    5th item, §14.32.
    Encodings:
    BibTeX
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