Automorphic Forms and Number Theory
Grant-in-Aid for Scientific Research (C).
|Research Institution||Kyoto University|
YAMAUCHI Masatoshi Kyoto University Yoshida College Assistant Professor, 教養部, 助教授 (30022651)
秋葉 知温 京都大学, 教養部, 教授 (60027670)
MATUKI Toshiko Kyoto University Yoshida College Assistant Professor, 教養部, 助教授 (20157283)
上田 哲生 京都大学, 教養部, 助教授 (10127053)
FUJIKI Akira Kyoto University Yoshida College Assistant Professor, 教養部, 助教授 (80027383)
SAITOU Hiroshi Kyoto University Yoshida College Assistant Professor, 教養部, 助教授 (20025464)
NISHIYAMA Kyo Kyoto University Yoshida College Assistant Professor, 教養部, 助教授 (70183085)
GYOUJYA Akihiko Kyoto University Yoshida College Assistant Professor, 教養部, 助教授 (50116026)
|Project Fiscal Year
1989 – 1990
Completed(Fiscal Year 1990)
|Budget Amount *help
¥2,100,000 (Direct Cost : ¥2,100,000)
Fiscal Year 1990 : ¥700,000 (Direct Cost : ¥700,000)
Fiscal Year 1989 : ¥1,400,000 (Direct Cost : ¥1,400,000)
|Keywords||Prehomogenous Space / L-function / Gauss sum / Representation of quaternions / Hecke operator / Kahler manifold / Representation of Lie groups / flagmanifold / 概均質ベクトル空間 / L関数 / ガウス和 / 四元数環の表現 / ヘッケ作用素 / ケ-ラ-多様体 / リ-群の表現 / 旗多様体 / モジュライ空間 / ホッジ多様体 / 岩堀、ヘッケ代数 / ハッセの原理 / σ-共役類 / ノルム写像 / コンパクトケ-ラ-多様体 / moduli空間 / Weil Petersson計量 / 解析的変換 / 離散系列表現|
This research is mainly concerned with the field of modular forms and related topics. We believe we could obtain many fruitful results. The main results are as follows :
(1) H. Saito proves the functional equations of L functions with respect to the prehomogeneous space of the binary quadratic forms and gives their residues. Furthormore H. Saito defines the gaussian sum with respect to the matrix attached to the quadratic character of the quadratic forms over the finite field and showing this sum is a natural generalization of the classical gaussian sum, he gives some important applications to the prehomogeneous space of symmetric matrices and Siegel modular forms.
(2) H. Saito and M. Yamauchi consider the irreducible representation of the multiplicative group of the quaternion algebra over the local field and give an explicit form of the restrictions to Cartan subgroups and the character of these representations. Owing to this result, they give an application to the trace formula of Hec
ke operators and give many important numerical examples of characteristic polynomials of Hecke operators for the modular groups of higher levels (cowork with H. Hijikata).
(3) A. Fujiki shows that the equivalence classes M of the representations from the fundamental group of the compact Kahler manifold to the complex reductive algebraic groups has the structure of the hyper Kahler space which admits a special C actions. Further in the associated Calabi family he showsthat the general fibre is isomorphic to M and special fibre is isomorphic to the moduli space of the Higgs bundle corresponding to the above representation.
(4) The open orbit of the prehomogenenous space acting the reductive algebraic group is an affine variety if and only if the space is regular. A. Gyoja gives a counter example to the conjecture that the regularity is a sufficient condition for the nonreductive case.
(5) T. Matuki describes the mapping which maps any representations of semisimple Lie groups to the principal series representations by the orbit structure over the flag manifolds. And for the classical simple Lie groups, he gives the symbolical expressions of the orbit structure of the flag manifolds. (cowork with T. Ohshima)
(6) K. Nishiyama defines the harmonic oscillator representation for the ortosymplectic Lie superalgebra and shows that it gives a unitary representation. This is an analogy of the Weil representations of the ordinary symplectic group. He also determines the wave front set of the Weil representations. Less
Research Output (24results)