Abstract
We study L r (or L r, ∞) boundedness for bilinear translation-invariant operators with nonnegative kernels acting on functions on \({\mathbb {R}^n}\). We prove that if such operators are bounded on some products of Lebesgue spaces, then their kernels must necessarily be integrable functions on \({\mathbb R^{2n}}\), while via a counterexample we show that the converse statement is not valid. We provide certain necessary and some sufficient conditions on nonnegative kernels yielding boundedness for the corresponding operators on products of Lebesgue spaces. We also prove that, unlike the linear case where boundedness from L 1 to L 1 and from L 1 to L 1, ∞ are equivalent properties, boundedness from L 1 × L 1 to L 1/2 and from L 1 × L 1 to L 1/2, ∞ may not be equivalent properties for bilinear translation-invariant operators with nonnegative kernels.
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