On non-commutative twisting in étale and motivic cohomology

Hornbostel, Jens; Kings, Guido

On non-commutative twisting in étale and motivic cohomology
[Sur la torsion non commutative en cohomologie étale et motivique]

Hornbostel, Jens ; Kings, Guido

Annales de l'Institut Fourier, Tome 56 (2006), p. 1257-1279 / Harvested from Numdam

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Abstract

Cet article confirme une conséquence de la conjecture principale de la théorie d’Iwasawa non abélienne. On démontre que, sous une condition technique, les groupes de cohomologie étale $H^{1} (𝒪_{K} [1 / S], H^{i} (\bar{X}, ℚ_{p} (j)))$ , où $X \to Spec 𝒪_{K} [1 / S]$ est un schéma projectif lisse, sont engendrés par des unités tordues compatible par rapport aux normes dans une tour de corps de nombres associés à $H^{i} (\bar{X}, ℤ_{p} (j))$ . On établit un résultat similaire pour la cohomologie motivique à coefficients finis en utilisant la conjecture de Bloch-Kato.

This article confirms a consequence of the non-abelian Iwasawa main conjecture. It is proved that under a technical condition the étale cohomology groups $H^{1} (𝒪_{K} [1 / S], H^{i} (\bar{X}, ℚ_{p} (j)))$ , where $X \to Spec 𝒪_{K} [1 / S]$ is a smooth, projective scheme, are generated by twists of norm compatible units in a tower of number fields associated to $H^{i} (\bar{X}, ℤ_{p} (j))$ . Using the “Bloch-Kato-conjecture” a similar result is proven for motivic cohomology with finite coefficients.

Publié le : 2006-01-01

MR 2266890 | Zbl pre05145722

DOI : https://doi.org/10.5802/aif.2212
Classification: 11R23, 14G40, 14F42, 11R32
Mots clés: cohomologie étale, cohomologie motivique, théorie d’Iwasawa non-commutative

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     author = {Hornbostel, Jens and Kings, Guido},
     title = {On non-commutative twisting in \'etale and motivic cohomology},
     journal = {Annales de l'Institut Fourier},
     volume = {56},
     year = {2006},
     pages = {1257-1279},
     doi = {10.5802/aif.2212},
     zbl = {pre05145722},
     mrnumber = {2266890},
     language = {en},
     url = {http://dml.mathdoc.fr/item/AIF_2006__56_4_1257_0}
}

Hornbostel, Jens; Kings, Guido. On non-commutative twisting in étale and motivic cohomology. Annales de l'Institut Fourier, Tome 56 (2006) pp. 1257-1279. doi : 10.5802/aif.2212. http://gdmltest.u-ga.fr/item/AIF_2006__56_4_1257_0/

Bibliographie

[1] Artin, M.; Grothendieck, A.; Verdier, J.-L. Théorie des topos et cohomologie étale des schémas, t.3, Lect. Notes. Math., Springer, Tome 305 (1973) | MR 354654

[2] Bloch, S.; Kato, K. $L$ -functions and Tamagawa numbers of motives, “The Grothendieck Festschrift”, Vol.I, Progress in Math., Birkhäuser, Boston, Tome 86 (1990), pp. 333-400 | MR 1086888 | Zbl 0768.14001

[3] Coates, J.; Sujatha, R. Fine Selmer groups of elliptic curves over $p$ -adic Lie extensions, Math. Annalen, Tome 331 (2005), pp. 809-839 | Article | MR 2148798 | Zbl 02156246

[4] Dwyer, W. G.; Friedlander, E. M. Algebraic and étale $K$ -theory, Trans. Amer. Math. Soc., Tome 292 (1985), pp. 247-280 | MR 805962 | Zbl 0581.14012

[5] Fontaine, J.-M.; Perrin-Riou, B. Cohomologie galoisienne et valeurs des fontions $L$ , Proceedings of Symposia in Pure Mathematics, part I, Tome 55 (1994), pp. 599-706 | MR 1265546 | Zbl 0821.14013

[6] Geisser, T. Motivic Cohomology over Dedekind rings, Math. Z., Tome 248 (2004), pp. 773-794 | Article | MR 2103541 | Zbl 1062.14025

[7] Geisser, T.; Levine, M. The Bloch-Kato conjecture and a theorem of Suslin-Voevodsky, J. reine angew. Math., Tome 530 (2001), pp. 55-103 | Article | MR 1807268 | Zbl 1023.14003

[8] Gillet, H. Riemann-Roch theorems for higher algebraic $K$ -theory, Adv. in Math., Tome 40 (1981), pp. 203-289 | Article | MR 624666 | Zbl 0478.14010

[9] Huber, A.; Kings, G. Degeneration of $ℓ$ -adic Eisenstein classes and of the elliptic polylog, Invent. Math., Tome 135 (1999), pp. 545-594 | Article | MR 1669288 | Zbl 0955.11027

[10] Huber, A.; Kings, G. Equivariant Bloch-Kato conjecture and non-abelian Iwasawa main conjecture, Proceedings ICM, Tome II (2002), pp. 149-162 | MR 1957029 | Zbl 1020.11067

[11] Huber, A.; Wildeshaus, J. Classical motivic polylogarithm according to Beilinson and Deligne, Doc. Math., Tome 3 (1998), pp. 27-133 | MR 1643974 | Zbl 0906.19004

[12] Jannsen, U.; Ihara On the $ℓ$ -adic cohomology of varieties over number fields and its Galois cohomology, Galois groups over $ℚ$ , MSRI Publication (1989) | Zbl 0703.14010

[13] Kahn, B. $K$ -theory of semi-local rings with finite coefficients and étale cohomology, K-Theory, Tome 25 (2002), pp. 99-138 | Article | MR 1906669 | Zbl 1013.19001

[14] Kato, K. Iwasawa theory and $p$ -adic Hodge theory, Kodai Math. J., Tome 16 (1993), pp. 1-31 | Article | MR 1207986 | Zbl 0798.11050

[15] Kato, K. $p$ -adic Hodge theory and values of zeta functions of modular forms. Cohomologies $p$ -adiques et applications arithmétiques III, Astérisque, Soc. Math. Fr., Tome 295 (2004), pp. 117-290 | MR 2104361 | Zbl 02123616

[16] Kings, G. The Tamagawa number conjecture for CM elliptic curves, Invent. Math., Tome 143 (2001), pp. 571-627 | Article | MR 1817645 | Zbl 01586347

[17] Lazard, M. Groupes analytiques $p$ -adiques, Pub. Math. IHÉS, Tome 26 (1965), pp. 389-603 | Numdam | MR 209286 | Zbl 0139.02302

[18] Levine, M. $K$ -theory and motivic cohomology of schemes (http://www.math.uiuc.edu/K-theory/336)

[19] Mccallum, W. G.; Sharifi, R. T. A cup product in the Galois cohomology of number fields, Duke Math. J., Tome 120 (2004), pp. 269-310 | MR 2019977 | Zbl 1047.11106

[20] Milne, J. S. Étale Cohomology, Princeton University Press (1980) | MR 559531 | Zbl 0433.14012

[21] Morel, F.; Voevodsky, V. $A^{1}$ -homotopy theory of schemes, Pub. Math. IHÉS, Tome 90 (1999), pp. 45-143 | Numdam | MR 1813224 | Zbl 0983.14007

[22] Neukirch, J.; Schmidt, A.; Wingberg, K. Cohomology of Number Fields, Grundlehren der math. Wiss., Springer, Tome 323 (2000) | MR 1737196 | Zbl 0948.11001

[23] Perrin-Riou, B. $p$ -adic $L$ -functions and $p$ -adic representations, SMF/AMS Texts and Monographs, American Mathematical Society, Providence, RI; Société Mathématique de France, Paris, Tome 3 (2000) | MR 1743508 | Zbl 0988.11055

[24] Quillen, D. Finite generation of the groups $K_{i}$ of algebraic integers, Springer, LNM, Tome 341 (1973) | MR 349812 | Zbl 0355.18018

[25] Serre, J.-P. Cohomologie galoisienne, Springer, Lecture Notes in Math., Tome 5 e éd. (1994) | MR 1324577 | Zbl 0812.12002

[26] Soulé, C. $K$ -théorie des anneaux d’entiers de corps de nombres et cohomologie étale, Invent. Math., Tome 55 (1979), pp. 251-295 | Article | MR 553999 | Zbl 0437.12008

[27] Soulé, C. Operations on étale $K$ -theory. Applications, Lecture Notes in Math., Springer, Tome 966 (1982), pp. 271-303 | MR 689380 | Zbl 0507.14013

[28] Soulé, C. Opérations en K-théorie algébrique, Canad. J.Math., Tome 37 (1985), pp. 488-550 | Article | MR 787114 | Zbl 0575.14015

[29] Soulé, C. $p$ -adic $K$ -theory of elliptic curves, Duke, Tome 54 (1987), pp. 249-269 | Article | MR 885785 | Zbl 0627.14010

[30] Suslin, A. A. Higher Chow Groups and Étale Cohomology, Cycles, Transfers and Motivic Homology Theories, Annals of Math. Studies, Princeton University Press, Tome 143 (2000) | MR 1764203 | Zbl 1019.14001

[31] Suslin, A. A.; Voevodsky, V. Relative cycles and Chow sheaves, Cycles, Transfers and Motivic Homology Theories, Annals of Math. Studies, Princeton University Press, Tome 143 (2000) | MR 1764199 | Zbl 1019.14004

[32] Thomason, R. W. Algebraic K-theory and étale cohomology, Ann. Sci. École Norm. Sup., Tome 13 (1985), pp. 437-552 | Numdam | MR 826102 | Zbl 0596.14012

[33] Thomason, R. W. Bott stability in Algebraic $K$ -theory, in “Applications of Algebraic $K$ -theory”, Contemp. Math., Tome 55 (1986), pp. 389-406 | MR 862644 | Zbl 0594.18012

[34] Voevodsky, V. Motivic cohomology with $Z / ℓ$ -coefficients (http://www.math.uiuc.edu/K-theory/639) | Numdam | Zbl 1057.14028

[35] Voevodsky, V. Motivic cohomology groups are isomorphic to higher Chow groups in any characteristic, Int. Math. Res. Not. (2002), pp. 351-355 | Article | MR 1883180 | Zbl 1057.14026

[36] Weibel, C.A. An introduction to homological algebra, Cambridge Studies in Advanced Mathematics, Cambridge, Tome 38 (1994) | MR 1269324 | Zbl 0797.18001