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* [{'LOWER': 'shimura'}, {'LEMMA': 'variety'}]

2022년 7월 5일 (화) 23:47 기준 최신판

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  1. The arithmetic properties of Shimura varieties were extensively studied by G. Shimura beginning in the early 1960s.[1]
  2. A Shimura variety whose weight is not rational is not a moduli variety, and not every Shimura variety whose weight is rational is known to be a moduli variety.[1]
  3. Roughly speaking, the goal in the study of Shimura varieties is to generalize everything that is known about modular curves to all Shimura varieties.[1]
  4. Hilbert modular surfaces and Siegel modular varieties are among the best known classes of Shimura varieties.[2]
  5. Special instances of Shimura varieties were originally introduced by Goro Shimura in the course of his generalization of the complex multiplication theory.[2]
  6. It is called the Shimura variety associated with the Shimura datum (G, X) and denoted Sh(G, X).[2]
  7. In retrospect, the name "Shimura variety" was introduced by Deligne, who proceeded to isolate the abstract features that played a role in Shimura's theory.[2]
  8. In particular, we will focus here on a sort of broad motivation for the subject—why Shimura varieties are a natural thing to study and, in particular, what they give us.[3]
  9. Third, Shimura varieties have the beautiful, but daunting, property that they have a huge range of descriptions, most of which look entirely different.[3]
  10. For this reason, it is particularly important, if one has an interest in learning about Shimura varieties, to have an upfront ‘overall perspective’.[3]
  11. Shimura varieties are objects used (conjecturally) to realize the global Langlands correspondence.[3]
  12. The theory of Shimura varieties grew out of the applications of modular functions and modular forms to number theory.[4]
  13. Roughly speaking, Shimura varieties are the varieties on which modular functions live.[4]
  14. The theory of Shimura varieties, as distinct from the theory of moduli varieties, can be said to have been born with Shimuras paper.[4]
  15. The connected Shimura varieties are the quotients of hermitian symmetric domains by the actions of certain discrete groups, which I now describe.[4]
  16. The above construction makes it clear the Shimura variety parametrizes the triples above.[5]
  17. It is thus natural to ask if we could extend the method to more general classes of Shimura varieties, relating them to certain moduli problems which behave as good as MK.[5]
  18. This leads to the PEL-type Shimura varieties, where the word "PEL" stands for polarizations, endomorphisms, and level structures.[5]
  19. AN EXAMPLE-BASED INTRODUCTION TO SHIMURA VARIETIES KAI-WEN LAN Abstract.[6]
  20. Introduction Shimura varieties are generalizations of modular curves, which have played an important role in many recent developments of number theory.[6]
  21. One of the reasons that Shimura varieties are so useful is because they carry two important kinds of symmetriesthe Hecke symmetry and the Galois symmetry.[6]
  22. However, the theory of Shimura varieties does not have a reputation of being easy to learn.[6]
  23. The original version was published as: Introduction to Shimura varieties, In Harmonic analysis, the trace formula, and Shimura varieties, 265378, Clay Math.[7]
  24. Langlands made Shimura varieties a central part of his program, both as a source of representations of Galois groups and as tests for his conjecture that all motivic L-functions are automorphic.[7]
  25. One point I should emphasize is that this is an introduction to the theory of general Shimura varieties.[7]
  26. The entire foundations of the theory of Shimura varieties need to be reworked.[7]
  27. There are two ‘local theories of Shimura varieties’ written in it.[8]
  28. Does cohomology of local shimura variety realize representations of a p-adic reductive group?[8]
  29. The term Shimura variety is usually reserved for the higher-dimensional case, in the case of one-dimensional varieties one speaks of Shimura curves.[9]
  30. In retrospect, the name Shimura variety was introduced, to recognise that these varieties form the appropriate higher-dimensional class of complex manifolds building on the idea of modular curve.[9]
  31. Abstract characterizations were introduced, to the effect that Shimura varieties are parameter spaces of certain types of Hodge structures.[9]
  32. However natural it may be to expect this, statements of this type have only been proved when X is a Shimura variety.[9]
  33. Second, to explain some of the necessary background, in particular the theory of moduli and Shimura varieties of PEL type … .[10]
  34. 1 2 SHIMURA VARIETIES OF TYPE U (1, N 1) IN CHARACTERISTIC ZERO We will sometimes let the choice of L0 vary this will correspond to looking at various connected components of the Shimura variety.[11]
  35. SHIMURA VARIETIES OF TYPE U (1, n 1) IN CHARACTERISTIC ZERO 3 Let (cid:15) B be the idempotent consisting of a 1 in the (1, 1) entry and zeros elsewhere.[11]
  36. SHIMURA VARIETIES OF TYPE U (1, n 1) IN CHARACTERISTIC ZERO 5 Now we have e1 I = . . .[11]
  37. We will leave aside important topics like compactications, bad reduction and the p-adic uniformization of Shimura varieties.[12]
  38. This is the notes of the lectures on Shimura varieties delivered by one of us in the Asia-French summer school organized at IHES in July 2006.[12]
  39. Shimura varieties of tori 5.5.[12]
  40. The relevance of Shimura varieties to automorphic forms stems from the following basic facts: ![13]
  41. It is well-known that the Shimura variety SK is geometrically disconnected.[13]
  42. Let (GSp2g; X; K) be a Shimura datum for which Kp is a hyperspecial maximal compact subgroup of GSp2g(Qp), and let SK denote the corresponding Shimura variety.[13]
  43. A classical problem due to Langlands and others which motivates much of this research is the description of the Hasse-Weil zeta function of a Shimura variety in terms of automorphic L-functions.[14]
  44. In this paper, we study the local geometry at a prime p of PEL type Shimura varieties for which there is a hyperspecial level subgroup.[15]
  45. Tate groups with additional structures and which provide a p-adic uniformization of the corresponding Shimura varieties.[15]
  46. In their work, they study the geometry of the reduction modulo p of the Shimura varieties by introducing the analogue in this context of Igusa curves, which they call Igusa varieties.[15]
  47. For general PEL type Shimura varieties, the above assumption on the dimension of the pertinent Barsotti-Tate groups does not hold.[15]
  48. We will leave aside important topics like com- pactications, bad reductions and p-adic uniformization of Shimura varieties.[16]
  49. This is the set notes for the lectures on Shimura varieties given in the Asia-French summer school organized at IHES on July 2006.[16]
  50. 2We make this precise in section 2, when we discuss Shimura varieties.[17]
  51. In this paper, we study the μ-ordinary locus of a Shimura variety with parahoric level structure.[18]
  52. Shimura varieties kind of generalize this idea.[19]
  53. This is what Shimura varieties accomplish.[19]
  54. The Shimura varieties are called Siegel modular varieties and they parametrize isogeny classes of -dimensional principally polarized abelian varieties with level structure.[19]
  55. There are many other kinds of Shimura varieties, which parametrize abelian varieties with other kinds of extra structure.[19]
  56. Tonghai will talk to us about Shimura varieties arising from orthogonal groups.[20]
  57. The quotients \H, more precisely, certain disjoint unions X of them, are the easiest examples of Shimura varieties.[21]
  58. The associated Shimura variety is then roughly \D. It is a fundamental theorem that this is in fact always an algebraic variety dened over a number eld.[21]
  59. Originally introduced by Shimura in the ‘60s in his study of the theory of complex multiplication, Shimura varieties are complex analytic varieties of great arithmetic interest.[22]
  60. We then prove a geometrical version of Serre’s Galois open image theorem for arbitrary Shimura varieties.[22]
  61. We present a general and comprehensive overview of recent developments in the theory of integral models of Shimura varieties of Hodge type.[23]
  62. The goal of the paper is to provide to non-specialists an ecient, accessible, and in depth introduction to the theory of integral models of Shimura varieties of Hodge type.[23]
  63. We begin with a motivation for the study of Shimura varieties of Hodge type.[23]
  64. They are called Shimura varieties of Hodge type (see Subsection 3.4).[23]
  65. Originally introduced by Shimura in the 60s in his study of the theory of complex multiplication, Shimura varieties are com- plex analytic varieties of great arithmetic interest.[24]
  66. You have always believed in me and supported my choices, encouraging me to nd my own path in the beautiful theory of Shimura varieties.[24]
  67. 33 2.3.2 Galois representations attached to algebraic points of Shimura varieties . . . . . . . . . . . . . . . . . . . . . .[24]

소스

  1. 1.0 1.1 1.2 Encyclopedia of Mathematics
  2. 2.0 2.1 2.2 2.3 Shimura variety
  3. 3.0 3.1 3.2 3.3 Shimura Varieties: motivation
  4. 4.0 4.1 4.2 4.3 ?w h a t
  5. 5.0 5.1 5.2 Various types of shimura variety and their moduli
  6. 6.0 6.1 6.2 6.3 An example-based introduction to shimura
  7. 7.0 7.1 7.2 7.3 Introduction to shimura varieties
  8. 8.0 8.1 A local model of a Shimura variety and a local Shimura variety
  9. 9.0 9.1 9.2 9.3 Shimura variety
  10. p-Adic Automorphic Forms on Shimura Varieties
  11. 11.0 11.1 11.2 Shimura varieties of type u (1, n − 1) in
  12. 12.0 12.1 12.2 Lectures on shimura varieties
  13. 13.0 13.1 13.2 On connected components of shimura varieties
  14. Bad Reduction of Shimura varieties
  15. 15.0 15.1 15.2 15.3 On the cohomology of certain pel type shimura
  16. 16.0 16.1 Lectures on shimura varieties
  17. Lecture notes on perfectoid shimura varieties
  18. On the μ-ordinary locus of a Shimura variety
  19. 19.0 19.1 19.2 19.3 Theories and Theorems
  20. Shimura Varieties Reading Group
  21. 21.0 21.1 Dr. fritz h¨ormann
  22. 22.0 22.1 Shimura varieties, Galois representations and motives
  23. 23.0 23.1 23.2 23.3 Geometry of shimura varieties of hodge
  24. 24.0 24.1 24.2 Shimura varieties, galois

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