Journal of the American Mathematical Society

Author(s): J. Bourgain
Journal: J. Amer. Math. Soc. 18 (2005), 477-499.
MSC (2000): Primary 11L07; Secondary 11T23
Posted: January 18, 2005
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Abstract: The aim of this paper is to extend recent work of S. Konyagin and the author on Gauss sum estimates for large degree to the case of `sparse' polynomials. In this context we do obtain a nearly optimal result, improving on the works of Mordell and of Cochrane and Pinner. The result is optimal in terms of providing some power gain under conditions on the exponents in the polynomial that are best possible if we allow arbitrary coefficients. As in earlier work referred to above, our main combinatorial tool is a sum-product theorem. Here we need a version for product spaces $\mathbb{F}_{p}\times \mathbb{F}_{p}$ for which the formulation is obviously not as simple as in the $\mathbb{F}_{p}$ -case.

Again, the method applies more generally to provide nontrivial bounds on (possibly incomplete) exponential sums involving exponential functions. At the end of the paper, some applications of these are given to issues of uniform distribution for power generators in cryptography.

[B]: J. Bourgain, Estimates on exponential sums related to the Diffie-Hellman distributions, to appear in GAFA.
[B-C]: J. Bourgain, M.-C. Chang, Exponential sum estimates over subgroups and almost subgroups of ${\mathbb Z}_q^*$ where is composite with few prime factors, submitted to Geom. Funct. Anal.
[B-G-K]: J. Bourgain, A. Glibichuk, S. Konyagin, Estimate for the number of sums and products and for exponential sums in fields of prime order, submitted to J. London Math. Soc.
[B-K]: J. Bourgain, S. Konyagin, Estimates for the number of sums and products and for exponential sums over subgroups in fields of prime order, CR Acad. Sci., Paris 337 (2003), no 2, 75-80. MR 1998834 (2004g:11067)
[B-K-T]: J. Bourgain, N. Katz, T. Tao, A sum-product theorem in finite fields and applications, Geom. Funct. Anal. 14 (2004), no. 1, 27-57.MR 2053599
[C-P1]: T. Cochrane, C. Pinner, An improved Mordell type bound for exponential sums, Proc. Amer. Math. Soc. 133 (2005), no. 2, 313-320 (electronic).MR 2093050
[C-P2]: -, Stepanov's method applied to binomial exponential sums, Quart. J. Math. 54 (2003), No 3, 243-255. MR 2013138 (2004k:11136)
[F-P-S]: J. Friedlander, C. Pomerance, I. Shparlinsky, Period of the power generator and small values of the Carmichael function, Math. Comp. 70 (2001), no. 236, 1591-1605. MR 1836921 (2002g:11112)
[F-S]: J. Friedlander, I. Shparlinsky, On the distribution of the power generator, Math. Comp., Vol. 70, No. 236, (2001), 1575-1589. MR 1836920 (2002f:11107)
[Go]: T. Govers, A new proof of Szemerédi's theorem for arithmetic progressions of length 4, GAFA 8 (1998), no. 3, 529-551. MR 1631259 (2000d:11019)
[K-S]: S. Konyagin, I. Shparlinski, Character sums with exponential functions and their applications, Cambridge UP, Cambridge (1999). MR 1725241 (2000h:11089)
[Mor]: L.J. Mordell, On a sum analogous to a Gauss sum, Quart. J. Math. 3 (1932), 161-162.
[Na]: M. Nathanson, Additive Number Theory, Springer-Verlag, NY, 1996.MR 1395371 (97e:11004); MR 1477155 (98f:11011)

Retrieve articles in Journal of the American Mathematical Society with MSC (2000): 11L07, 11T23

J. Bourgain
Affiliation: School of Mathematics, Institute for Advanced Study, Princeton, New Jersey 08540

DOI: 10.1090/S0894-0347-05-00476-5
PII: S 0894-0347(05)00476-5
Received by editor(s): July 16, 2004
Posted: January 18, 2005
Copyright of article: Copyright 2005, American Mathematical Society

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ISSN: 1088-6834(e) ISSN: 0894-0347(p)

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