In mathematics , Hua's lemma , named for Hua Loo-keng , is an estimate for exponential sums .
It states that if P is an integral-valued polynomial of degree k ,
ε
{\displaystyle \varepsilon }
f a real function defined by
f
(
α
)
=
∑
x
=
1
N
exp
(
2
π
i
P
(
x
)
α
)
,
{\displaystyle f(\alpha )=\sum _{x=1}^{N}\exp(2\pi iP(x)\alpha ),}
then
∫
0
1
|
f
(
α
)
|
λ
d
α
≪
P
,
ε
N
μ
(
λ
)
{\displaystyle \int _{0}^{1}|f(\alpha )|^{\lambda }d\alpha \ll _{P,\varepsilon }N^{\mu (\lambda )}}
where
(
λ
,
μ
(
λ
)
)
{\displaystyle (\lambda ,\mu (\lambda ))}
(
2
ν
,
2
ν
−
ν
+
ε
)
,
ν
=
1
,
…
,
k
.
{\displaystyle (2^{\nu },2^{\nu }-\nu +\varepsilon ),\quad \nu =1,\ldots ,k.}
References
Hua Loo-keng (1938). "On Waring's problem" . Quarterly Journal of Mathematics . 9 (1): 199–202. doi :10.1093/qmath/os-9.1.199 .
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Hua's lemma
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is a positive real number, and f a real function defined by
,
lies on a polygonal line with vertices
