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Difference between revisions of "Weyl sum"

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where
 
where
  
$$f(x)=\alpha_nx^n+\ldots+\alpha_1x$$
+
$$f(x)=\alpha_nx^n+\dotsb+\alpha_1x$$
  
 
and $\alpha_n,\dots,\alpha_1$ are arbitrary real numbers. Weyl sums are used in solving many familiar problems number theory. The first method for obtaining non-trivial estimates of the sums \ref{*} was developed in 1916 by H. Weyl (cf. [[Weyl method|Weyl method]]). Essentially better estimates of Weyl sums were obtained in 1934 by I.M. Vinogradov, who used his own new method for estimating trigonometric sums (cf. [[Vinogradov method|Vinogradov method]]).
 
and $\alpha_n,\dots,\alpha_1$ are arbitrary real numbers. Weyl sums are used in solving many familiar problems number theory. The first method for obtaining non-trivial estimates of the sums \ref{*} was developed in 1916 by H. Weyl (cf. [[Weyl method|Weyl method]]). Essentially better estimates of Weyl sums were obtained in 1934 by I.M. Vinogradov, who used his own new method for estimating trigonometric sums (cf. [[Vinogradov method|Vinogradov method]]).

Revision as of 12:31, 14 February 2020

A trigonometric sum of the form

$$S(f)=\sum_{1\leq x\leq P}e^{2\pi if(x)},\tag{*}$$

where

$$f(x)=\alpha_nx^n+\dotsb+\alpha_1x$$

and $\alpha_n,\dots,\alpha_1$ are arbitrary real numbers. Weyl sums are used in solving many familiar problems number theory. The first method for obtaining non-trivial estimates of the sums \ref{*} was developed in 1916 by H. Weyl (cf. Weyl method). Essentially better estimates of Weyl sums were obtained in 1934 by I.M. Vinogradov, who used his own new method for estimating trigonometric sums (cf. Vinogradov method).

How to Cite This Entry:
Weyl sum. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Weyl_sum&oldid=33412
This article was adapted from an original article by B.M. Bredikhin (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article