International Mathematics Research Notices

International Mathematics Research Notices (2008) Vol. 2008 : article ID rnm164, 33 pages, doi:10.1093/imrn/rnm164 published on February 6, 2008

This Article Abstract Full Text (PDF) Alert me when this article is cited Alert me if a correction is posted Services Email this article to a friend Similar articles in this journal Alert me to new issues of the journal Add to My Personal Archive Download to citation manager Request Permissions How to cite this article Google Scholar Articles by Navilarekallu, T. Search for Related Content Social Bookmarking          What's this?

© The Author 2008. Published by Oxford University Press. All rights reserved. For permissions, please e-mail: journals.permissions@oxfordjournals.org

Equivariant Birch–Swinnerton–Dyer Conjecture for the Base Change of Elliptic Curves: An Example

Tejaswi Navilarekallu

Department of Mathematics, Indian Institute of Science, Bangalore 560012, India

Correspondence: Correspondence to be sent to: navilarekallu{at}gmail.com

Let E be an elliptic curve defined over and let be a finite Galois extension with Galois group G. The equivariant Birch–Swinnerton–Dyer conjecture for viewed as a motive over with coefficients in relates the twisted L-values associated with E with the arithmetic invariants of the same. In this paper I prescribe an approach to verify this conjecture for a given data. Using this approach, we verify the conjecture for an elliptic curve of conductor 11 and an S₃-extension of .

References

1. Abbes A., Ullmo E. A propos de la conjecture de Manin pour les courbes elliptiques modulaires. Compositio Mathematica (1996) 103(3):269–86.[Web of Science]
2. Artin M. Néron models. Arithmetic Geometry—Cornell G., Silverman J. H., eds. (1986) New York: Springer. 213–30.
3. Bloch S., Kato K. "L-functions and Tamagawa numbers for motives." In "The Grothendieck Festschrift," special issue, vol. I. Progress in Mathematics (1990) 86:333–400.
4. Breuil C., Conrad B., Diamond F., Taylor R. On the modularity of the elliptic curves over : wild 3-adic exercises. Journal of the American Mathematical Society (2001) 14(4):843–939.[CrossRef][Web of Science]
5. Burns D., Flach M. Motivic L-functions and Galois module structures. Mathematische Annalen (1996) 305:65–102.[CrossRef][Web of Science]
6. Burns D., Flach M. Tamagawa numbers for motives with (noncommutative) coefficients I. Documenta Mathematica (2001) 6:501–70.
7. Computel. http://maths.dur.ac.uk/~dma0td/compute l/.
8. Cremona J. Elliptic Curves Data. http://www.math.nottingham.ac.uk/personal/jec/ftp/data..
9. Curtis C. W., Reiner I. Methods of Representation Theory (1987) vols. I and II. New York: John Wiley.
10. Deligne P. "Le déterminant de la cohomology." In "Current Trends in Arithmetical Algebraic Geometry", special issue. Contemporary Mathematics (1977) 67:313–46.
11. Dokchitser T. Computing the special values of motivic L-functions. Experimental Mathematics (2004) 13(2):137–50.[Web of Science]
12. Flach M. Euler characteristics in relative K-groups. Bulletin of the London Mathematical Society (2000) 32(3):272–84.[Abstract/Free Full Text]
13. Kato K. Lectures on the approach to Iwasawa theory of Hasse-Weil L-functions via B_dR, Part I. Arithmetical Algebraic Geometry. 50–163. Lecture Notes in Mathematics, 1553. 1993.
14. Kato K. p-adic Hodge theory and the values of zeta-functions of modular forms. Cohomologies p-adiques et applications arithmetiques III. 117–290. Asterisque, 295. 2004.
15. Navilarekallu T. On the equivariant Tamagawa number conjecture. (2006) Thesis, Caltech.
16. The Pari Group. "PARI/GP, Version 2.1.5." Bordeaux. (2003) Available at http://www.parigp-home.de/.
17. Rubin K. Euler Systems (2000) Princeton: Princeton University Press.
18. Serre J. P. Corps Locaux (1962) Paris: Hermann.
19. Serre J. P. Représentations Linéaires des Groupes Finis (1978) Paris: Hermann.
20. Shimura G. On the periods of modular forms. Mathematische Annalen (1977) 229(3):211–21.[CrossRef][Web of Science]
21. Silverman J. H. The Arithmetic of Elliptic Curves. (1992) New York: Springer. Graduate Texts in Mathematics.
22. Taylor M. J. On Fröhlich's conjecture of rings of integers of tame extensions. Inventiones Mathematicae (1981) 63:41–79.[CrossRef][Web of Science]
23. Wiles A. Modular elliptic curve and Fermat's last theorem. Annals of Mathematics (1995) 141:443–551.[CrossRef][Web of Science]
24. Zhang S. Heights of Heegner points on Shimura curves. Annals of Mathematics (2001) 153:27–147.[CrossRef][Web of Science]

CiteULike    Connotea    Del.icio.us    What's this?

This Article Abstract Full Text (PDF) Alert me when this article is cited Alert me if a correction is posted Services Email this article to a friend Similar articles in this journal Alert me to new issues of the journal Add to My Personal Archive Download to citation manager Request Permissions How to cite this article Google Scholar Articles by Navilarekallu, T. Search for Related Content Social Bookmarking          What's this?