Littlewood's 4/3 inequality

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 real sequences that converge to zero.

Precisely, let B:c₀ × c₀ → ℂ be a bilinear form. Then the following holds:

\left( \sum_{i,j=1}^\infty |B(e_i,e_j)|^{4/3} \right)^{3/4} \le \sqrt{2} \| B \|,

where

\| B \| = \sup \{|B(x_1,x_2)|: \|x_i\|_\infty \le 1 \}.

Generalizations

Bohnenblust–Hille inequality

Bohnenblust–Hille inequality^[2] is a multilinear extension of Littlewood's inequality that states that for all m-linear mapping M:c₀ × ... × c₀ → ℂ the following holds:

\left( \sum_{i_1,\ldots,i_m=1}^\infty |M(e_{i_1},\ldots,e_{i_m})|^{2m/(m+1)} \right)^{(m+1)/(2m)} \le 2^{(m-1)/2} \| M \|,

References

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Littlewood's 4/3 inequality

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Generalizations

Bohnenblust–Hille inequality

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