shuji_saito

公表論文

  1. [23a]   Kay R"ulling and Shuji Saito, Ramification theory of reciprocity sheaves, I; Zariski-Nagata purity
    to appear in J. Reine Angew. (2023)
  2. |PDF|
  3. [23b]   F. Binda, A. Merici and S. Saito, Derived log Albanese sheaves,
    to appear in Advances in Math. (2023)
  4. |PDF|
  5. [23c]   F. Binda, A. Krishna and S. Saito, Bloch's formula for 0-cycles with modulus and higher dimensional class field theory,
    to appear in J. of Algebraic Geometry (2023)
  6. |PDF|
  7. [23d]   A. Merici and S. Saito, Cancellation theorems for reciprocity sheaves,
    to appear in Algebraic Geometry (2023)
  8. |PDF|
  9. [23e]   M. Kerz, S. Saito, G. Tamme, K-theory of non-archimedean rings II,
    to appear in Nagoya J. Math (2023)
  10. |PDF|
  11. [23f]   S. Saito, Reciprocity sheaves and logarithmic motives,
    Compositio Math. 159 (2023), no. 2, 355-379.
  12. |PDF|
  13. [23g]   Kay R"ulling and Shuji Saito, Cycle class maps for Chow groups of zero-cycles with modulus,
    J. of Pure and Applied Algebra 227 (2023), no. 5, Paper No. 107282.
  14. |PDF|
  15. [22a]   F. Binda, K. R"ulling and S. Saito, On the cohomology of reciprocity sheaves,
    Forum of Math. Sigma. 10 (2022), Paper No. e72, 111 pp.
  16. |PDF|
  17. [22b]    B. Kahn, H. Miyazaki, S. Saito and T. Yamazaki, Motives with modulus, III: The category of motives,
    Annals of K-theory 7 (2022), no. 1, 119--178.
  18. |PDF|
  19. [22c]   B. Kahn, S. Saito and T. Yamazaki, Reciprocity sheaves, II,
    Homology Homotopy Appl. 24 (2022), no. 1, 71--91.
  20. |PDF|
  21. [22d]   M. Kerz and S. Saito, Correction to the article Lefschetz theorem for abelian fundamental group with modulus,
    Algebra and Number Theory, 16 (2022), no. 8, 2001-2003
  22. |PDF|
  23. [21a]   K. R"ulling and S. Saito, Reciprocity sheaves and their ramification filtrations,
    J. Inst. Math. Jussieu. (2021) 1-74. doi:10.1017/S1474748021000074.
  24. |PDF|
  25. [21b]   B. Kahn, H. Miyazaki, S. Saito and T. Yamazaki, Motives with modulus, I: Modulus sheaves with transfers for non-proper modulus pairs,
    Epijournal de Geometrie Algebrique 5 (2021), no. 1, 1--62.
  26. |PDF|
  27. [21c]   B. Kahn, H. Miyazaki, S. Saito and T. Yamazaki, Motives with modulus, II: Modulus sheaves with transfers for proper modulus pairs,
    Epijournal de Geometrie Algebrique 5 (2021), no. 2, 1--40.
  28. |PDF|
  29. [21d]   S. Kelly and S. Saito, Smooth blowup square for motives with modulus,
    Bulletin Polish Acad. Sci. Math., 69 (2021) no.2, pp.97-106.
  30. [20a]   S. Saito, Purity of reciprocity sheaves,
    Advances in Math. 365 (2020), 107067, 70 pp.
  31. |PDF|
  32. [20b]   M. Kerz, S. Saito and G. Tamme, Towards a non-archimedean analytic analog of the Bass-Quillen conjecture,
    J. Inst. Math. Jussieu 19 (2020), no. 6, 1931--1946
  33. |PDF|
  34. [20c]   S. Saito and K. Sato, On p-adic vanishing cycles of log smooth families,
    Tunisian J. Math. 2 (2020), no. 2, 309--335.
  35. [20d]   V. Cossart, U. Jannsen and S. Saito, Desingularization: Invariants and Strategy: Application to Dimension 2,
    Lecture Notes in Mathematics. 2270 (2020), Springer-Verlag, Berlin
  36. |PDF|
  37. [19a]   M. Kerz, S. Saito and G. Tamme, K-theory of non-archimedean rings I,
    Documenta Math. 24 (2019), 1365--1411
  38. |PDF|
  39. [19b]   F. Binda and S. Saito, Relative cycles with moduli and regulator maps,
    J. Inst. Math. Jussieu. 18 (2019), no 6, 1233--1293
  40. |PDF|
  41. [18a]   K. R"ulling and S. Saito, Higher Chow groups with modulues and relative Milnor K-theory,
    Trans. AMS. 370 (2018), 987--1043
  42. |PDF|
  43. [18b]   U. Jannsen, S. Saito and Y. Zhao, Duality for relative logarithmic de Rham-Witt sheaves and wildly ramified class field theory over finite fields,
    Compositio Math. 154 (2018), 1306--1331
  44. |PDF|
  45. [17]   S. Kelly and S. Saito, Weight homology of motives,
    Internatinal Math. Research Notices. 13 (2017), 3938--3984
  46. |PDF|
  47. [16a]   B. Kahn, S. Saito and T. Yamazaki, Reciprocity sheaves, I,
    Compositio Math. 152 , no. 9 (2016), 1851--1898
  48. |PDF|
  49. [16b]   M. Kerz and S. Saito, Chow group of 0-cycles with modulus and higher dimensional class field theory,
    Duke Math. J. 165 , no. 15 (2016), 2811--2897
  50. |PDF|
  51. [15]   S. Saito, 高次元類体論の現在-非アーベル化への展望と高次元Hasse原理,
    日本数学会「数学」 67 , no. 3 (2015) 246--270
  52. |PDF|
  53. [14a]  S. Saito and K. Sato, Zero-cycles on varieties over p-adic fields and Brauer groups,
    Ann. Sci. Ecole Norm. Sup. 47 (2014), 505--537
  54. |PDF|
  55. [14b]   M. Kerz and S. Saito, Lefschetz theorem for abelian fundamental group with modulus,
    Algebra and Number Theory, 8 (2014), 689--702
  56. |PDF|
  57. [14c]  U. Jannsen, S. Saito and K. Sato, Etale duality for constructible sheaves on arithmetic schemes,
    J. Reine Angew. 688 (2014), 1--65
  58. |PDF|
  59. [13]   M. Kerz and S. Saito, Cohomologicla Hasse principle and resolution of quotient singularities,
    New York J. Math. 19 (2013), 597--645
  60. |PDF|
  61. [12a]   M. Kerz and S. Saito, Cohomological Hasse principle and motivic cohomology of arithmetic schemes,
    Publ. Math. IHES 115 (2012), 123--183
  62. |PDF|
  63. [12b]   U. Jannsen and S. Saito, Bertini theorems and Lefschetz pencils over discrete valuation rings, with applications to higher class fileld theory,
    J. of Algebraic Geometry 21 (2012), 683--705
  64. |PDF|
  65. [11a]   S. Saito, Cohomological Hasse principle and motivic cohomology of arithmetic schemes,
    Proceedings of the International Congress of Mathematicians, Hyderabad, India, 2010.
  66. |PDF|
  67. [11b]  S. Saito, 高次元ハッセ原理と類体論の一般化 (Cohomological Hasse principle and higher dimensional class field theory),
    数理研講究録別冊 (RIMS Kokyuroku Bessatsu) 25 (2011)
  68. |PDF|
  69. [10a]   S. Saito and K. Sato, A finite theorem for zero-cycles over p-adic fields,
    Annals of Mathematics 172 (2010), 593--639
  70. |PDF|
  71. [10b]   S. Saito and K. Sato, A p-adic regulator map and finiteness results for arithmetic schemes,
    Documenta Math. Extra Volume: Andrei A. Suslin's Sixtieth Birthday (2010), 525-594
  72. |PDF|
  73. [10c]  S. Saito, Recent progress on the Kato conjecture,
    in: Quadratic forms, linear algebraic groups, and cohomology, Developments in Math. 18 (2010), 109--124
  74. |PDF|
  75. [08a]   M. Asakura and S. Saito, Maximal components of Noether-Lefschetz locus for Beilinson-Hodge cycles,
    Math. Annalen 341 (2008), 169--199
  76. |PDF|
  77. [08b]   M. Asakura and S. Saito, Surfaces over a p-adic field with infinite torsion in the Chow group of 0-cycles,
    Algebra and Number Theory 1 (2008), 163--181
  78. |PDF|
  79. [07a]   J. Lewis and S. Saito, Algebraic cycles and Mumford-Griffiths invariants,
    Amer. J. Math. 129 (2007), 1449- 1499
  80. |PDF|
  81. [07b]   M. Asakura and S. Saito, Beilinson's Hodge conjecture with coefficient for open complete intersections, in: Algebraic cycles and Motives Volume 2 (for J. Murre's 75--th Birthday)
    London Math. Society Lecture Note Series 344 (2007), 3--37
  82. |PDF|
  83. [06a]   M. Asakura and S. Saito, Noether-Lefschetz locus for Beilinson-Hodge cycles I,
    Math. Zeit. 252 (2006), 251--237
  84. [06b]   M. Asakura and S. Saito, Generalized Jacobian rings for open complete intersections,
    Math. Nachr. 279 (2006), 251--237
  85. [04]   S. Saito, Beilinson's Hodge and Tate conjectures, in: Transcendental Aspects of Algebraic Cycles,
    London Math. Society Lecture Note Series 313 (2004), 276--289
  86. [03a]   S. M"uller-Stach and S. Saito, On K_1 and K_2 of algebraic surfaces,
    K-Theory 30 (2003), 37--69
  87. [03b]   U. Jannsen and S. Saito, Kato homology of arithmetic schemes and higher class field theory over local fields,
    Documenta Math. Extra Volume: Kazuya Kato's Fiftieth Birthday, (2003), 479--538
  88. [02a]   S. Saito, Higher normal functions and Griffiths groups,
    J. of Algebraic Geometry 11 (2002), 161-201
  89. [02b]   S. Saito, Infinitesimal logarithmic Torelli problem for degenerating hypersurfaces in P^n, in: Algebraic Geometry 2000, Azumino,
    Advanced Studies in Pure Math. 36 (2002), 401--434
  90. [00a]   S. Saito, Motives, Algebraic Cycles and Hodge theory, in: The Arithmetic and Geometry of Algebraic Cycles,
    CRM Proceedings and Lecture Notes 24 (2000), 235--253, American Mathematical Society
  91. [00b]   S. Saito, Motives and Filtrations on Chow groups, II, in: The Arithmetic and Geometry of Algebraic Cycles,
    NATO Science Series 548 (2000), 321--346, Kluwer Academic Publishers
  92. [96a]   S. Saito, Motives and Filtrations on Chow groups,
    Invent. Math. 125 (1996), 149--196
  93. [96b]   A. Langer and S. Saito, Torsion zero-cycles on the self-product of a modular elliptic curve,
    Duke Math. J. 85 (1996), 315--357
  94. [96c]   J.-L. Colliot-Th'el`ene and S. Saito, Z'ero-cycles sur les vari'et'es p-adiques et groupe de Brauer,
    Internatinal Math. Research Notices 4 (1996), 151--160
  95. [95]   S. Saito and R. Sujatha, A finiteness theorem for cohomology of surfaces over p-adic fields and an application to Witt groups,
    Proceedings of Symposia in Pure Math. 58 Part II (1994), 403--416, AMS
  96. [94]   S. Saito, Cohomological Hasse principle for a threefold over a finite field, in: Algebraic K-theory and Algebraic Topology,
    NATO ASI Series, 407 (1994), 229--241, Kluwer Academic Publishers
  97. [93]   S. Saito, A global duality theorem for varieties over global fields, in: Algebraic K-theory: Connections with Geometry and Topology,
    NATO ASI Series, 279 (1993), 425--444, Kluwer Academic Publishers
  98. [91a]   S. Saito, Torsion zero-cycles and etale homology of singular schemes,
    Duke Math. J. 64 (1991), 71-83
  99. [91b]   S. Saito, On the cycle map for torsion algebraic cycles of codimension two,
    Invent. Math. 106 (1991), 443--460
  100. [89a]   S. Saito, Arithmetic theory on an arithmetic surface,
    Ann. of Math. 129 (1989), 547--589
  101. [89b]   S. Saito, Some observations on motivic cohomologies of arithmetic schemes,
    Invent. Math. 98 (1989), 371--414
  102. [87a]   K. Kato, S. Saito and T. Saito, General fixed point formula for an algebraic surface
    and the theory of Swan representations for two-dimensional local rings,

    Amer. J. Math. 109 (1987), 1009--1042
  103. [87b]   K. Kato, S. Saito and T. Saito, Artin Characters for algebraic surfaces,
    Amer. J. Math. 109 (1987), 49--76
  104. [87c]   S. Saito, Class field theory for two dimensional local rings, in: Galois Representations and Arithmetic Geometry,
    Advanced Studies in Pure Math. 12 (1987), 343-373
  105. [86a]   S. Saito, Arithmetic on two dimensional local rings,
    Invent. Math. 85 (1986), 379--414
  106. [86b]   K. Kato and S. Saito, Global class field theory of arithmetic schemes,
    Contemporary Math. 55 (1986), 255--331
  107. [85a]   S. Saito, Unramified class field theory of arithmetical schemes,
    Ann. of Math. 121 (1985), 251--281
  108. [85b]   S. Saito, Class field theory for curves over local fields,
    Journal Number Theory 21 (1985), 44--80
  109. [85c]   K. Kato and S. Saito, Unramified class field theory of arithmetical surfaces,
    Ann. of Math. 118 (1985), 241--275
  110. [84]   S. Saito, Functional equations of L-functions of varieties over finite fields,
    J. Fac. Sci. Univ. of Tokyo, Sec. IA 31 (1984), 287--296
  111. [83]   K. Kato and S. Saito, Two dimensional class field theory, in: Galois groups and Their Representations,
    Advanced Studies in Pure Math. 2 (1983), 103--152

論説