CORRESPONDENCE FUNCTION D(z) AND GENERALIZED IRREGULAR EQUATIONS

Applied Mathematics and Mechanics (English Edition) ›› 1985, Vol. 6 ›› Issue (9): 841-851.

CORRESPONDENCE FUNCTION D(z) AND GENERALIZED IRREGULAR EQUATIONS

董明德

Institute of Theoretical Physics, Academia Sinica, Beijing

收稿日期:1983-09-09 出版日期:1985-09-18 发布日期:1985-09-18

CORRESPONDENCE FUNCTION D(z) AND GENERALIZED IRREGULAR EQUATIONS

Dong Ming-de

Institute of Theoretical Physics, Academia Sinica, Beijing

Received:1983-09-09 Online:1985-09-18 Published:1985-09-18

摘要/Abstract

摘要： Extending Riemann's idea of P function (using equation's parameters to represent the function defined by the equation), we introduce correspondence functions D(z) to describe regular and irregular integrals in a unifying way. By explicit solution discuss monodromy group of non-Fuchsian equations. The explicit expressions of exponent and expansion coefficients for Floquet solution are obtained. Method of correspondence functions permits us to obtain systematically the solutions of generalized irregular equations, having regular, irregular poles, essential, algebraic, transcendental, logarithmic singularities as well as singular line. The representation of basic set of solutions by D function makes it possible to enlarge the scope of investigation of analytic theory. The significance of Poincare 's conjecture is discussed, as D functions are automorphic.

关键词: extrapolation approach, point-by-point close, complex crack, strain energy release rate

Abstract: Extending Riemann's idea of P function (using equation's parameters to represent the function defined by the equation), we introduce correspondence functions D(z) to describe regular and irregular integrals in a unifying way. By explicit solution discuss monodromy group of non-Fuchsian equations. The explicit expressions of exponent and expansion coefficients for Floquet solution are obtained. Method of correspondence functions permits us to obtain systematically the solutions of generalized irregular equations, having regular, irregular poles, essential, algebraic, transcendental, logarithmic singularities as well as singular line. The representation of basic set of solutions by D function makes it possible to enlarge the scope of investigation of analytic theory. The significance of Poincare 's conjecture is discussed, as D functions are automorphic.

Key words: extrapolation approach, point-by-point close, complex crack, strain energy release rate

董明德. CORRESPONDENCE FUNCTION D(z) AND GENERALIZED IRREGULAR EQUATIONS[J]. Applied Mathematics and Mechanics (English Edition), 1985, 6(9): 841-851.

Dong Ming-de . CORRESPONDENCE FUNCTION D(z) AND GENERALIZED IRREGULAR EQUATIONS[J]. Applied Mathematics and Mechanics (English Edition), 1985, 6(9): 841-851.

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CORRESPONDENCE FUNCTION D(z) AND GENERALIZED IRREGULAR EQUATIONS

CORRESPONDENCE FUNCTION D(z) AND GENERALIZED IRREGULAR EQUATIONS

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