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AN ALGORITHM OF COMPUTING COHOMOLOGY INTERSECTION NUMBER OF HYPERGEOMETRIC INTEGRALS

Part of: Algorithms - Computer Science Computational aspects

Published online by Cambridge University Press:  07 May 2021

SAIEI-JAEYEONG MATSUBARA-HEO Open the ORCID record for SAIEI-JAEYEONG MATSUBARA-HEO [Opens in a new window]  and
NOBUKI TAKAYAMA Open the ORCID record for NOBUKI TAKAYAMA [Opens in a new window]
SAIEI-JAEYEONG MATSUBARA-HEO*
Affiliation:
Graduate School of Science Kobe University 1-1 Rokkodai, Nada-ku Kobe 657-8501 Japan
NOBUKI TAKAYAMA
Affiliation:
Graduate School of Science Kobe University 1-1 Rokkodai, Nada-ku Kobe 657-8501 Japantakayama@math.kobe-u.ac.jp
*
saiei@math.kobe-u.ac.jp
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Abstract

We show that the cohomology intersection number of a twisted Gauss–Manin connection with regularization condition is a rational function. As an application, we obtain a new quadratic relation associated to period integrals of a certain family of K3 surfaces.

MSC classification

Primary: 33C60: Hypergeometric integrals and functions defined by them ($E$, $G$, $H$ and $I$ functions)
Secondary: 33C70: Other hypergeometric functions and integrals in several variables 33F99: None of the above, but in this section 68W30: Symbolic computation and algebraic computation
Type
Article
Information
Nagoya Mathematical Journal , Volume 246 , June 2022 , pp. 256 - 272
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Copyright
© 2021 The Authors. The publishing rights in this article are licenced to Foundation Nagoya Mathematical Journal under an exclusive license

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References

Adolphson, A., Hypergeometric functions and rings generated by monomials , Duke Math. J. 73 (1994), 269290.CrossRefGoogle Scholar
Ando, K., Esterov, A., and Takeuchi, K., Monodromies at infinity of confluent A-hypergeometric functions , Adv. Math. 272 (2015), 119.CrossRefGoogle Scholar
Aomoto, K. and Kita, M., Theory of Hypergeometric Functions (in Japanese) , Springer, Tokyo, 1994 (English translation available from Springer, Tokyo, 2011).Google Scholar
Beukers, F., Irreducibility of A-hypergeometric systems , Indag. Math. 21 (2011), 3039.CrossRefGoogle Scholar
Beukers, F. and Jouhet, F., Duality relations for hypergeometric series , Bull. Lond. Math. Soc. 47 (2015), no. 2, 343358.CrossRefGoogle Scholar
Cho, K. and Matsumoto, K., Intersection theory for twisted cohomologies and twisted Riemann’s period relations I , Nagoya Math. J. 139, (1995), 6786.CrossRefGoogle Scholar
Deligne, P., Équations Différentielles à Points Singuliers Réguliers , Lecture Notes in Mathematics 163, Springer, Berlin and New York, 1970.CrossRefGoogle Scholar
Dimca, A., Maaref, F., Sabbah, C., and Saito, M., Dwork cohomology and algebraic $\;\mathbf{\mathcal{D}}$ -modules , Math. Ann. 318, (2000), no. 1, 107125.CrossRefGoogle Scholar
Gel’f, I. M., Kapranov, M. M., and Zelevinsky, A. V., Hypergeometric functions and toric varieties (in Russian) , Funktsional. Anal. I Prilozhen. 23 (1989), no. 2, 1226; translation in Funct. Anal. Appl. 23 (1989), no. 2, 94–106.Google Scholar
Gel’fand, I. M., Kapranov, M. M., and Zelevinsky, A. V., Generalized Euler integrals and $A$ -hypergeometric functions , Adv. Math. 84 (1990), 255271.CrossRefGoogle Scholar
Gel’fand, I. M., Kapranov, M. M., and Zelevinsky, A. V., Discriminants, Resultants and Multidimensional Determinants , Birkhauser, Basel, 1994.CrossRefGoogle Scholar
Goto, Y. and Matsumoto, K., Pfaffian of Appell’s hypergeometric system ${F}_4$ in terms of the intersection form of twisted cohomology groups , Nagoya Math. J. 217 (2015), 6194.CrossRefGoogle Scholar
Goto, Y. and Matsumoto, K., Pfaffian equations and contiguity relations of the hypergeometric function of type $\ \left(k+1,k+n+2\right)$ and their applications , Funkcialaj Ekvacioj 61 (2018), 315347.CrossRefGoogle Scholar
Hibi, T. (ed.), Gröbner Bases: Statistics and Software Systems . Springer, New York, 2013.CrossRefGoogle Scholar
Hibi, T., Nishiyama, K., and Takayama, N., Pfaffian systems of $A$ -hypergeometric equations I: Bases of twisted cohomology groups , Adv. Math. 306 (2017), 303327.CrossRefGoogle Scholar
Hotta, R., Equivariant D-modules, preprint, arXiv:math/9805021v1 [math.RT].Google Scholar
Hotta, R., Takeuchi, K., and Tanisaki, T., D-modules, Perverse Sheaves, and Representation Theory , Progress in Mathematics 236, Birkhäuser, Boston, 2008.CrossRefGoogle Scholar
Kita, M. and Yoshida, M., Intersection theory for twisted cycles , Math. Nachr. 166 (1994), 287304.CrossRefGoogle Scholar
Matsubara-Heo, S. J., Euler and Laplace integral representations of GKZ hypergeometric functions, preprint, arXiv:1904.00565v4 [math.CA].Google Scholar
Matsubara-Heo, S. J. and Takayama, N., “Algorithms for Pfaffian Systems and Cohomology Intersection Numbers of Hypergeometric Integrals” in Mathematical Software—ICMS , Lecture Notes in Computer Science 12097, Springer, New York, 2020, 7384 (Errata at http://www.math.kobe-u.ac.jp/OpenXM/Math/intersection2).Google Scholar
Matsubara-Heo, S. J. and Takayama, N., GKZ hypergeometric system (manual for mt_gkz.rr), http://www.math.kobe-u.ac.jp/OpenXM/Math/intersection2/Prog/mt_gkz-en.pdf Google Scholar
Matsumoto, K., Intersection numbers for logarithmic $k$ -forms , Osaka J. Math. 35 (1998), 873893.Google Scholar
Narumiya, N. and Shiga, H., “The mirror map for a family of K3 surfaces induced from the simplest 3-dimensional reflexive polytope” In Proceedings on Moon-Shine and Related Topics (Montréal, QC, 1999) , CRM Proc. Lecture Notes 30, Amer. Math. Soc., Providence, RI, 2001, 139161.CrossRefGoogle Scholar
Oaku, T., Takayama, N., and Tsai, H., Polynomial and rational solutions of holonomic systems , J. Pure Appl. Alg 164 (2001), 199220.CrossRefGoogle Scholar
Ohara, K., Sugiki, Y., and Takayama, N., Quadratic relations for generalized hypergeometric functions pFp−1 , Funkcialaj Ekvacioj 46 (2003), 213251.CrossRefGoogle Scholar
Saito, M., Sturmfels, B., and Takayama, N., Gröbner Deformations of Hypergeometric Differential Equations , Springer, New York, 2000.CrossRefGoogle Scholar
Schulze, M. and Walther, U., Resonance equals reducibility for A-hypergeometric systems , Algebra Number Theory 6 (2012), 527537.CrossRefGoogle Scholar
Serre, J.-P., Géométrie algébrique et géométrie analytique , Ann. Inst. Fourier Grenoble 6 (1955–1956), 142.CrossRefGoogle Scholar
Tibăr, M., Polynomials and Vanishing Cycles . Cambridge Tracts in Mathematics 170, Cambridge University Press, Cambridge, MA, 2007, xii+253 pp.CrossRefGoogle Scholar
Verdier, J.-L., Stratifications de Whitney et théorème de Bertini–Sard , Invent. Math. 36 (1976), 295312.CrossRefGoogle Scholar