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Weyl's inequality (number theory)

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In number theory, Weyl's inequality, named for Hermann Weyl, states that if M, N, a and q are integers, with a and q coprime, q > 0, and f is a real polynomial of degree k whose leading coefficient c satisfies

| c a / q | t q 2 , {\displaystyle |c-a/q|\leq tq^{-2},}

for some t greater than or equal to 1, then for any positive real number ε {\displaystyle \scriptstyle \varepsilon } one has

x = M M + N exp ( 2 π i f ( x ) ) = O ( N 1 + ε ( t q + 1 N + t N k 1 + q N k ) 2 1 k )  as  N . {\displaystyle \sum _{x=M}^{M+N}\exp(2\pi if(x))=O\left(N^{1+\varepsilon }\left({t \over q}+{1 \over N}+{t \over N^{k-1}}+{q \over N^{k}}\right)^{2^{1-k}}\right){\text{ as }}N\to \infty .}

This inequality will only be useful when

q < N k , {\displaystyle q<N^{k},}

for otherwise estimating the modulus of the exponential sum by means of the triangle inequality as N {\displaystyle \scriptstyle \leq \,N} provides a better bound.

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