рус eng
«ИЗВЕСТИЯ ИРКУТСКОГО ГОСУДАРСТВЕННОГО УНИВЕРСИТЕТА». СЕРИЯ «МАТЕМАТИКА»
«IZVESTIYA IRKUTSKOGO GOSUDARSTVENNOGO UNIVERSITETA». SERIYA «MATEMATIKA»
«THE BULLETIN OF IRKUTSK STATE UNIVERSITY». SERIES «MATHEMATICS»
ISSN 1997-7670 (Print)
ISSN 2541-8785 (Online)

Список выпусков > Серия «Математика». 2023. Том 46

Пояснения к статье Меллина 1921 года

Автор(ы)
У. М. Лоутон1

1Сибирский федеральный университет, Красноярск, Российская Федерация

Аннотация
Приводятся подробные доказательства утверждений, которые отсутствуют в статье Меллина Comptes Rendu, что позволяет понять эту статью читателям, не являющимся экспертами в теории гипергеометрических функций и комплексном анализе.
Об авторах
Лоутон Уэйн М., д-р физ.-мат. наук, проф., Сибирский федеральный университет, Красноярск, 660041, Российская Федерация, wlawton50@gmail.com
Ссылка для цитирования
Lawton W. M. An Explanation of Mellin’s 1921 Paper // Известия Иркутского государственного университета. Серия Математика. 2023. Т. 46. C. 98–109. https://doi.org/10.26516/1997-7670.2023.46.98
Ключевые слова
многочлен, главное решение, функции гипергеометрического типа, интегральное представление Меллина – Барнса
УДК
518.517
MSC
32-03,12-08, 33C70
DOI
https://doi.org/10.26516/1997-7670.2023.46.98
Литература
  1. Aizenberg L.A., Yuzhakov A.P. Integral representations and residues in multidimensional complex analysis. Translations of Mathematical Monographs, 1983, vol. 58, American Mathematical Society, Providence, RI.
  2. Aizenberg L.A., Tsikh A.K. and Yuzhakov A.P. Multidimensional residues and applications. Modern Problems of Mathematics, 1985, vol. 8, pp. 45–64.
  3. Antipova I.A. Inversion of many-dimensional Mellin transforms and solutions of algebraic equations. Mat. Sbornik, 2007, vol. 198, no. 4, pp. 447–463. https://doi.org/10.1070/SM2007v198n04ABEH003844
  4. Antipova L.A., Mikhalkin E.N. Analytic continuation of a general algebraic function by means of Puiseux series. Proc. Steklov Institute Math., 2012, vol. 279, pp. 3–13. https://doi.org/10.1134/S0081543812080020
  5. Barnes E.W. The asymptotic expansion of integral functions defined by generalized hypergeometric functions. Proc. London Math. Soc., 1907, vol. 5, no. 2, pp. 59–116.
  6. Barnes E.W. A new development of the theory of the hypergeometric functions. Proc. London Math. Soc., 1907, vol. 6, no. 2, pp. 141–177.
  7. Barnes E.W. On functions defined by simple types of hypergeometric series. Trans. Camb. Phil. Soc., 1907, vol. 20, pp. 235–279.
  8. Barnes E.W. A transformation of generalised hypergeometric series. Quart. J. Math., 1910, vol. 141, pp. 136–140.
  9. Belardinelli G. Fonctions hyperg´eom´etriques de plusieurs variables et r´esolution analytique des ´equations alg´ebriques g´en´erales. M´emorial des sciences math´ematiques, 1960, no. 145, Gauthier–Villars, Paris.
  10. Birkeland M.R. Ein allgemeiner Satz ¨uber algebraische Gleichungen. Annales Academiae Scientarum Fennicae, 1915, ser. A, t. 7.
  11. Debnath L., Bhatta D. Integral Transforms and Their Applications, 2nd ed.. New York, Chapman & Hall/CRC, 2007.
  12. Euler L. Introduction to Analysis Infinitorum. Vol. 1. Lausanne, 1748.
  13. Fosberg M., Passare M., Tsikh A. Laurent determinants and arrangements of hyperplane amoebas. Advances in Mathematics, 2000, vol. 151, pp. 45–70. Available at: http://www.sciencedirect.com/science/article/pii/S000187089991856X
  14. Grothendieck A. Th´𝑒or`𝑒ms de dualit´e pour les faisceaux alg´ebriques coh´erent. S´eminaire Bourbaki, 1957, vol. 49, pp. 1–25.
  15. Hartshorne R. Residues and duality. Lecture Notes in Math., Berlin, New York, Springer–Verlag, 1966, vol. 20.
  16. Kauers M., Paule P. The Concrete Tetrahedron, Symbolic Sums, Recurrence Equations, Generating Functions, Asymptotic Estimates. Vienna, Springer, 2011.
  17. Krantz S.G., Parks H.R. The Implicit Function Theorem. History, Theory, and Applications. Boston, Birkh¨auser, 2003.
  18. Kulikov V.R., Stepanenko V.A. On solutions and Waring’s formulas for systems of n algebraic equations for n unknowns. St. Petersburg Math. J., 2005, vol. 26, no. 5, pp. 839–848. https://dx.doi.org/10.1090/spmj/1361
  19. Mainardi F., Pagnini G. Salvatore Pincherle: The Pioneer of the Mellin-Barnes Integrals. J. Computational and Applied Mathematics, 2003, vol. 153, no. 1-2, pp. 331–342. https://doi.org/10.1016/S0377-0427(02)00609-X
  20. Mellin H.J. Zur Theorie der Gamma Funktion. Acta Math., 1886, vol. 8, pp. 37–80.
  21. Mellin H.J. ´’Uber einen Zusammenmenhang zwischen gewissen linearen Differential und Differenzengleichungen, Acta Math., 1886, vol 9, pp. 137–166.
  22. Mellin H.J. Zur Theorie der lineren Differenzengleichungen erster Ordnung. Acta Math., 1891, vol. 15. pp. 317–384.
  23. Mellin H.J. Zur Theorie zweier allgemeiner Klassen bestimmter Integrale. Acta Soc. Sc. Fenn., 1896, vol. 22, no. 2.
  24. Mellin H.J. R´esolution de l’equation alg´ebrique g´en´erale ´a l’aide de la fonction gamma. C. R. Acad. Sci. Paris S´er. I Math., 1921, vol. 172, pp. 658–661.
  25. Mikhailkin E.N. On solving general algebraic equations by integral of elementary functions. Siberian Math. J., 2006, vol. 47, no. 2, pp. 365–371. https://doi.org/10.1007/s11202-006-0043-4
  26. Nilsson L., Passare M., Tsikh A.K. Domains of convergence for A–hypergeometric series and integrals. J. Siberian Federal Univ. Math. & Physics, 2019, vol. 12, no. 4, pp. 509–529. https://doi.org/10.17516/1997-1397-2019-12-4-509-529
  27. Passare M., Tsikh A.K., Cheshel A.A. Multiple Mellin-Barnes integrals as periods of Calabi-Yau manifolds with several moduli. Theor. Math. Phys., 1996, vol. 109,pp. 1544–1555. https://doi.org/10.1007/BF02073871
  28. Pincherle A. Sopra una trasformazione delle equazioni differenziali lineari in equazioni lineari alle differenze, e viceversa. R. Istituto Lombardo di Scienze e Lettere, Rendiconti, Ser. 2, 1886, vol. 19, pp. 559–562.
  29. Pincherle A. Sulle funzioni ipergeometriche generalizzate. Atti R. Accademia Lincei, Rend. Cl. Sci. Fis. Mat. Nat., Ser. 4, 1888, vol. 4, pp. 694–700, 792–799.
  30. Pincherle A. Notices sur les travaux. Acta Mathematica, 1925, vol. 46, pp. 341–362.
  31. Sadykov T.M., Tsikh A.K. Hypergeometric and Algebraic Functions of Several Variables. Moscow, Nauka Publ.,2014. (Russian)
  32. Semusheva A.Y., Tsikh A.K. Continuation of Mellin’s Studies on Solving Algebraic Equations. Complex Analysis and Differential Operators: On the Occasion of the 150th Anniversary of S. V. Kovalevskaya (Krasnoyarsk State University), 2000, pp. 134. (Russian).
  33. Shabat B.V. Introduction to Complex Analysis, Part II Functions of Several Variables. Am. Math. Soc., Providence, 1992.
  34. Slater L.J. Generalized Hypergeometric Functions. Cambridge University Press, UK, 1960.
  35. Stepanenko V.A. On the solution of a system of n algebraic equations with n unknowns by means of hypergeometric functions. Vestnik Krasn. Gos. Univ. Ser. Fiz. Mat., 2003, vol. 1, pp. 35–48. (Russian).
  36. Tsikh A.K. Multidimensional Residues and Their Applications. Am. Math. Soc., Providence, RI, 1992.
  37. Wallis J. Arithmeticum Infinitorum. London, 1655.
  38. Yuzhakov A.P. The application of the multiple logarithmic residue to the expansion of implicit functions in power series. Mat. Sbornik, 1975, vol. 97, no. 2, pp. 177–192. https://doi:10.1070/SM1975v026n02ABEH002475 (in Russian)
  39. Zhdanov O.N., Tsikh A.K. Studying the multiple Mellin–Barnes integrals by means of multidimensional residues. Sib. Math. J., 1998, vol. 39, pp. 281–298. https://doi.org/10.1007/BF02677509

Полная версия (english)