Littlewood polynomial

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In mathematics, a Littlewood polynomial is a polynomial all of whose coefficients are +1 or −1. Littlewood's problem asks how large the values of such a polynomial must be on the unit circle in the complex plane. The answer to this would yield information about the autocorrelation of binary sequences. They are named for J. E. Littlewood who studied them in the 1950s.

Definition

A polynomial

${\displaystyle p(x)=\sum _{i=0}^{n}a_{i}x^{i}\,}$

is a Littlewood polynomial if all the ${\displaystyle a_{i}=\pm 1}$. Let ||p|| denote the supremum of |p(z)| on the unit circle. Littlewood's problem asks for constants c₁ and c₂ such that there are infinitely many p_n , of increasing degree n, such that

${\displaystyle c_{1}{\sqrt {n+1}}\leq \Vert p_{n}\Vert \leq c_{2}{\sqrt {n+1}}.\,}$

The Rudin-Shapiro polynomials provide a sequence satisfying the upper bound with ${\displaystyle c_{2}={\sqrt {2}}}$. No sequence is known (as of 2008) which satisfies the lower bound.

See also

• Hall-Littlewood polynomial
• Littlewood's conjecture

References

• Peter Borwein (2002). Computational Excursions in Analysis and Number Theory. Springer-Verlag, 2-5,121-132. ISBN 0-387-95444-9. 
• J.E. Littlewood (1968). Some problems in real and complex analysis. D.C. Heath.