紀錄類型: |
書目-電子資源
: Monograph/item
|
杜威分類號: |
512.7/4 |
書名/作者: |
Elementary modular Iwasawa theory/ Haruzo Hida. |
作者: |
Hida, Haruzo. |
出版者: |
Singapore : : World Scientific,, c2022. |
面頁冊數: |
1 online resource (448 p.) |
標題: |
Iwasawa theory. |
標題: |
Galois theory. |
標題: |
Modules (Algebra) |
ISBN: |
9789811241376 |
ISBN: |
9811241376 |
書目註: |
Includes bibliographical references and index. |
內容註: |
Cyclotomic Iwasawa theory -- Cuspidal Iwasawa theory -- Cohomological modular forms and p-adic L-functions -- p-adic families of modular forms -- Abelian deformation -- Universal ring and compatible system -- Cyclicity of adjoint Selmer groups -- Local indecomposability of modular Galois representation -- Analytic and topological methods. |
摘要、提要註: |
"This book is the first to provide a comprehensive and elementary account of the new Iwasawa theory innovated via the deformation theory of modular forms and Galois representations. The deformation theory of modular forms is developed by generalizing the cohomological approach discovered in the author's 2019 AMS Leroy P Steele Prize-winning article without using much algebraic geometry. Starting with a description of Iwasawa's classical results on his proof of the main conjecture under the Kummer-Vandiver conjecture (which proves cyclicity of his Iwasawa module more than just proving his main conjecture), we describe a generalization of the method proving cyclicity to the adjoint Selmer group of every ordinary deformation of a two-dimensional Artin Galois representation. The fundamentals in the first five chapters are as follows: Iwasawa's proof; a modular version of Iwasawa's discovery by Kubert-Lang as an introduction to modular forms; a level-headed description of the p-adic interpolation of modular forms and p-adic L-functions, which are developed into a modular deformation theory; Galois deformation theory of the abelian case. The continuing chapters provide the level of exposition accessible to graduate students, while the results are the latest"-- |
電子資源: |
https://www.worldscientific.com/worldscibooks/10.1142/12398#t=toc |