Littlewood's 4/3 inequality explained

In mathematical analysis, Littlewood's 4/3 inequality, named after John Edensor Littlewood,^[1] is an inequality that holds for every complex-valued bilinear form defined on

c₀

, the Banach space of scalar sequences that converge to zero.

Precisely, let

B:c_{0 x}c₀\toC

be a bilinear form. Then the following holds:

\left(

	infty
\sum
	i,j=1

|B(e_i,e

	4/3

	j)\|

\right)^3/4\le\sqrt{2}\|B\|,

where

\|B\|=\sup\{|B(x_1,x_2)|:\|x_i\|_infty\le1\}.

The exponent 4/3 is optimal, i.e., cannot be improved by a smaller exponent.^[2] It is also known that for real scalars the aforementioned constant is sharp.^[3]

Generalizations

Bohnenblust–Hille inequality

Bohnenblust–Hille inequality^[4] is a multilinear extension of Littlewood's inequality that states that for all

-linear mapping

M:c_{0 x} … x c₀\toC

the following holds:

\left(

	infty
\sum
	i_1,\ldots,i_m=1

\|M(e
	i₁

,\ldots,e
	i_m

)|^2m/(m+1)\right)^(m+1)/(2m)\le2^(m-1)/2\|M\|,

Notes and References

Littlewood. J. E.. On bounded bilinear forms in an infinite number of variables. The Quarterly Journal of Mathematics. 1930. 1. 164–174. os-1. 10.1093/qmath/os-1.1.164. 1930QJMat...1..164L.
Littlewood. J. E.. On bounded bilinear forms in an infinite number of variables. The Quarterly Journal of Mathematics. 1930. 1. 164–174. 10.1093/qmath/os-1.1.164. 1930QJMat...1..164L.
Diniz. D. E.. Munoz. G.. Pellegrino. D.. Seoane. J.. Lower bounds for the Bohnenblust--Hille inequalities: the case of real scalars. Proceedings of the American Mathematical Society. 2014. 132. 575–580. 10.1090/S0002-9939-2013-11791-0 . 1111.3253. 119128323 .
Bohnenblust. H. F.. Hille. Einar. On the Absolute Convergence of Dirichlet Series. The Annals of Mathematics. 1931. 32. 3. 600–622. 10.2307/1968255. 1968255 .

Littlewood's 4/3 inequality explained

Generalizations

Bohnenblust–Hille inequality

See also

Notes and References