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Let $\mathscr H$ be the Hilbert transform, that is the Fourier multiplier by $\text{sign } \xi$: $$ (\mathscr H u)(x)=\int_{\mathbb R} e^{2iπ x\xi }(\text{sign } \xi) \hat u(\xi) d\xi. $$ The Hilbert transform is a singular integral defined by the convolution $$ \lim_{\epsilon\rightarrow 0_+}\int_{\vert x-y\vert>\epsilon}\frac{u(y)}{iπ (x-y)} dy. $$ It is a bounded (and even unitary and selfadjoint) operator on $L^2(\mathbb R)$, bounded on $L^p(\mathbb R)$ for $1<p<+\infty$, not bounded on $L^1$ or $L^\infty$.

My question: are there some boundedness results of $\mathscr H$ from $L^p$ to $L^q$ for some values of $p,q\in (0,1)$?

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  • $\begingroup$ I doubt there is such. $\endgroup$ Commented Feb 16, 2017 at 16:10
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    $\begingroup$ Wouldn't you get boundedness on $L^1$ by interpolation if you had such a property? $\endgroup$ Commented Feb 16, 2017 at 17:36

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