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Generalized hypergeometric functions
1990Abstract Hypergeometric functions have occupied a significant position in mathematics for over two centuries. This monograph, by one of the foremost experts, is concerned with the Boyarsky principle which expresses the analytical properties of a certain proto-gamma function. Professor Dwork develops here a theory which is broad enough to
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Generalized Hypergeometric Function of Unit Argument
Journal of Mathematical Physics, 1970Two summation theorems are given for the terminating generalized hypergeometric function pFp−1, for arbitrary p, with certain restrictions on the parameters.
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Zeros of generalized hypergeometric functions
Mathematical Proceedings of the Cambridge Philosophical Society, 1973In this paper we derive the conditions which have to be satisfied in order to obtain some classes of zeros of the generalized hypergeometric series of the typeThese conditions read:
D'Adda, A., D'Auria, R.
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Analysis
Abstract We introduce new extension of the extended Pochhammer symbol and gamma function by using the extended Mittag-Leffler function. We also present extension of the generalized hypergeometric function as well as some of their special cases by using this extended Pochhammer symbol.
Komal Singh Yadav +2 more
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Abstract We introduce new extension of the extended Pochhammer symbol and gamma function by using the extended Mittag-Leffler function. We also present extension of the generalized hypergeometric function as well as some of their special cases by using this extended Pochhammer symbol.
Komal Singh Yadav +2 more
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Generating functions of the hypergeometric functions
Journal of Mathematical Physics, 1974The Lie algebra, which was introduced in a previous paper to treat the hypergeometric functions by Lie theory techniques, is used to derive generating functions of the hypergeometric functions. Several generating functions are obtained from the theory of multiplier representations. Weisner's method is also applied, giving another generating function.
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Confluence expansions of the generalized hypergeometric function
Journal of Mathematical Physics, 2003By confluencing a subset of upper and lower parameters in the generalized hypergeometric function FQP(a1,,…,aP,c1,…,cQ;z) with the variable z one obtains a lower-order hypergeometric function in the limit when the confluence parameters go to infinity.
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HERMITE-PADÉ APPROXIMANTS OF GENERALIZED HYPERGEOMETRIC FUNCTIONS
Russian Academy of Sciences. Sbornik Mathematics, 1995Let \(\alpha_1, \alpha_2, \dots, \alpha_p\), \(\beta_1, \dots, \beta_q\) with \(p= q+1\) be complex numbers which are neither 0 nor negative integers. Consider the family of contiguous hypergeometric functions \[ \begin{aligned} f_0 (z) &= {}_pF_q \left( {{\alpha_1, \ldots, \alpha_p} \atop {\beta_1, \ldots, \beta_q}} \Biggl|z\right)= \sum^\infty_{n=0} {
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Generalized Hypergeometric Functions
Mathematics of Computation, 1966Y. L. L., Lucy Joan Slater
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A new generalization of q-hypergeometric function
Bollettino dell'Unione Matematica Italiana, 2015The author introduces a so-called \(q\)-\(\ell\)-\(\Psi\) function by \[ \Psi\left[\begin{matrix} a; & b; & q; & z\\ c; & \left( d:\ell\right) ; & & \end{matrix} \right] =\sum_{n=0}^{\infty}\frac{\left( a;q\right) _{n}\left( b;q\right) _{n}}{\left( c;q\right) _{n}\left( d;q\right) _{n}^{\ell n}}\frac{z^{n} }{\left( q;q\right) _{n}}, \] where ...
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Integrative oncology: Addressing the global challenges of cancer prevention and treatment
Ca-A Cancer Journal for Clinicians, 2022Jun J Mao,, Msce +2 more
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